xref: /freebsd/sys/dev/arcmsr/arcmsr.h (revision acb1f1269c6f4ff89a0d28ba742f6687e9ef779d)
1 /*
2 ********************************************************************************
3 **        OS    : FreeBSD
4 **   FILE NAME  : arcmsr.h
5 **        BY    : Erich Chen, Ching Huang
6 **   Description: SCSI RAID Device Driver for
7 **                ARECA (ARC11XX/ARC12XX/ARC13XX/ARC16XX/ARC188x)
8 **                SATA/SAS RAID HOST Adapter
9 ********************************************************************************
10 ********************************************************************************
11 ** SPDX-License-Identifier: BSD-3-Clause
12 **
13 ** Copyright (C) 2002 - 2012, Areca Technology Corporation All rights reserved.
14 **
15 ** Redistribution and use in source and binary forms,with or without
16 ** modification,are permitted provided that the following conditions
17 ** are met:
18 ** 1. Redistributions of source code must retain the above copyright
19 **    notice,this list of conditions and the following disclaimer.
20 ** 2. Redistributions in binary form must reproduce the above copyright
21 **    notice,this list of conditions and the following disclaimer in the
22 **    documentation and/or other materials provided with the distribution.
23 ** 3. The name of the author may not be used to endorse or promote products
24 **    derived from this software without specific prior written permission.
25 **
26 ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
27 ** IMPLIED WARRANTIES,INCLUDING,BUT NOT LIMITED TO,THE IMPLIED WARRANTIES
28 ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
29 ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,INDIRECT,
30 ** INCIDENTAL,SPECIAL,EXEMPLARY,OR CONSEQUENTIAL DAMAGES(INCLUDING,BUT
31 ** NOT LIMITED TO,PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
32 ** DATA,OR PROFITS; OR BUSINESS INTERRUPTION)HOWEVER CAUSED AND ON ANY
33 ** THEORY OF LIABILITY,WHETHER IN CONTRACT,STRICT LIABILITY,OR TORT
34 **(INCLUDING NEGLIGENCE OR OTHERWISE)ARISING IN ANY WAY OUT OF THE USE OF
35 ** THIS SOFTWARE,EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
36 **************************************************************************
37 * $FreeBSD$
38 */
39 #define ARCMSR_SCSI_INITIATOR_ID	255
40 #define ARCMSR_DEV_SECTOR_SIZE		512
41 #define ARCMSR_MAX_XFER_SECTORS		4096
42 #define ARCMSR_MAX_TARGETID		17	/*16 max target id + 1*/
43 #define ARCMSR_MAX_TARGETLUN		8	/*8*/
44 #define ARCMSR_MAX_CHIPTYPE_NUM		4
45 #define ARCMSR_MAX_OUTSTANDING_CMD	256
46 #define ARCMSR_MAX_START_JOB		256
47 #define ARCMSR_MAX_CMD_PERLUN		ARCMSR_MAX_OUTSTANDING_CMD
48 #define ARCMSR_MAX_FREESRB_NUM		384
49 #define ARCMSR_MAX_QBUFFER		4096	/* ioctl QBUFFER */
50 #define ARCMSR_MAX_SG_ENTRIES		38	/* max 38*/
51 #define ARCMSR_MAX_ADAPTER		4
52 #define ARCMSR_RELEASE_SIMQ_LEVEL	230
53 #define ARCMSR_MAX_HBB_POSTQUEUE	264	/* (ARCMSR_MAX_OUTSTANDING_CMD+8) */
54 #define ARCMSR_MAX_HBD_POSTQUEUE	256
55 #define	ARCMSR_TIMEOUT_DELAY		60	/* in sec */
56 #define	ARCMSR_NUM_MSIX_VECTORS		4
57 /*
58 *********************************************************************
59 */
60 #ifndef TRUE
61 	#define TRUE  1
62 #endif
63 #ifndef FALSE
64 	#define FALSE 0
65 #endif
66 #ifndef INTR_ENTROPY
67 	# define INTR_ENTROPY 0
68 #endif
69 
70 #ifndef offsetof
71 	#define offsetof(type, member)  ((size_t)(&((type *)0)->member))
72 #endif
73 
74 #define ARCMSR_LOCK_INIT(l, s)		mtx_init(l, s, NULL, MTX_DEF)
75 #define ARCMSR_LOCK_DESTROY(l)		mtx_destroy(l)
76 #define ARCMSR_LOCK_ACQUIRE(l)		mtx_lock(l)
77 #define ARCMSR_LOCK_RELEASE(l)		mtx_unlock(l)
78 #define ARCMSR_LOCK_TRY(l)		mtx_trylock(l)
79 #define arcmsr_htole32(x)		htole32(x)
80 typedef struct mtx			arcmsr_lock_t;
81 
82 /*
83 **********************************************************************************
84 **
85 **********************************************************************************
86 */
87 #define PCI_VENDOR_ID_ARECA		0x17D3 /* Vendor ID	*/
88 #define PCI_DEVICE_ID_ARECA_1110        0x1110 /* Device ID	*/
89 #define PCI_DEVICE_ID_ARECA_1120        0x1120 /* Device ID	*/
90 #define PCI_DEVICE_ID_ARECA_1130        0x1130 /* Device ID	*/
91 #define PCI_DEVICE_ID_ARECA_1160        0x1160 /* Device ID	*/
92 #define PCI_DEVICE_ID_ARECA_1170        0x1170 /* Device ID	*/
93 #define PCI_DEVICE_ID_ARECA_1200        0x1200 /* Device ID	*/
94 #define PCI_DEVICE_ID_ARECA_1201        0x1201 /* Device ID	*/
95 #define PCI_DEVICE_ID_ARECA_1203        0x1203 /* Device ID	*/
96 #define PCI_DEVICE_ID_ARECA_1210        0x1210 /* Device ID	*/
97 #define PCI_DEVICE_ID_ARECA_1212        0x1212 /* Device ID	*/
98 #define PCI_DEVICE_ID_ARECA_1214        0x1214 /* Device ID	*/
99 #define PCI_DEVICE_ID_ARECA_1220        0x1220 /* Device ID	*/
100 #define PCI_DEVICE_ID_ARECA_1222        0x1222 /* Device ID	*/
101 #define PCI_DEVICE_ID_ARECA_1230        0x1230 /* Device ID	*/
102 #define PCI_DEVICE_ID_ARECA_1231        0x1231 /* Device ID	*/
103 #define PCI_DEVICE_ID_ARECA_1260        0x1260 /* Device ID	*/
104 #define PCI_DEVICE_ID_ARECA_1261        0x1261 /* Device ID	*/
105 #define PCI_DEVICE_ID_ARECA_1270        0x1270 /* Device ID	*/
106 #define PCI_DEVICE_ID_ARECA_1280        0x1280 /* Device ID	*/
107 #define PCI_DEVICE_ID_ARECA_1380        0x1380 /* Device ID	*/
108 #define PCI_DEVICE_ID_ARECA_1381        0x1381 /* Device ID	*/
109 #define PCI_DEVICE_ID_ARECA_1680        0x1680 /* Device ID	*/
110 #define PCI_DEVICE_ID_ARECA_1681        0x1681 /* Device ID	*/
111 #define PCI_DEVICE_ID_ARECA_1880        0x1880 /* Device ID	*/
112 #define PCI_DEVICE_ID_ARECA_1884        0x1884 /* Device ID	*/
113 
114 #define ARECA_SUB_DEV_ID_1880	0x1880 /* Subsystem Device ID	*/
115 #define ARECA_SUB_DEV_ID_1882	0x1882 /* Subsystem Device ID	*/
116 #define ARECA_SUB_DEV_ID_1883	0x1883 /* Subsystem Device ID	*/
117 #define ARECA_SUB_DEV_ID_1884	0x1884 /* Subsystem Device ID	*/
118 #define ARECA_SUB_DEV_ID_1212	0x1212 /* Subsystem Device ID	*/
119 #define ARECA_SUB_DEV_ID_1213	0x1213 /* Subsystem Device ID	*/
120 #define ARECA_SUB_DEV_ID_1216	0x1216 /* Subsystem Device ID	*/
121 #define ARECA_SUB_DEV_ID_1222	0x1222 /* Subsystem Device ID	*/
122 #define ARECA_SUB_DEV_ID_1223	0x1223 /* Subsystem Device ID	*/
123 #define ARECA_SUB_DEV_ID_1226	0x1226 /* Subsystem Device ID	*/
124 
125 #define PCIDevVenIDARC1110              0x111017D3 /* Vendor Device ID	*/
126 #define PCIDevVenIDARC1120              0x112017D3 /* Vendor Device ID	*/
127 #define PCIDevVenIDARC1130              0x113017D3 /* Vendor Device ID	*/
128 #define PCIDevVenIDARC1160              0x116017D3 /* Vendor Device ID	*/
129 #define PCIDevVenIDARC1170              0x117017D3 /* Vendor Device ID	*/
130 #define PCIDevVenIDARC1200              0x120017D3 /* Vendor Device ID	*/
131 #define PCIDevVenIDARC1201              0x120117D3 /* Vendor Device ID	*/
132 #define PCIDevVenIDARC1203              0x120317D3 /* Vendor Device ID	*/
133 #define PCIDevVenIDARC1210              0x121017D3 /* Vendor Device ID	*/
134 #define PCIDevVenIDARC1212              0x121217D3 /* Vendor Device ID	*/
135 #define PCIDevVenIDARC1213              0x121317D3 /* Vendor Device ID	*/
136 #define PCIDevVenIDARC1214              0x121417D3 /* Vendor Device ID	*/
137 #define PCIDevVenIDARC1220              0x122017D3 /* Vendor Device ID	*/
138 #define PCIDevVenIDARC1222              0x122217D3 /* Vendor Device ID	*/
139 #define PCIDevVenIDARC1223              0x122317D3 /* Vendor Device ID	*/
140 #define PCIDevVenIDARC1230              0x123017D3 /* Vendor Device ID	*/
141 #define PCIDevVenIDARC1231              0x123117D3 /* Vendor Device ID	*/
142 #define PCIDevVenIDARC1260              0x126017D3 /* Vendor Device ID	*/
143 #define PCIDevVenIDARC1261              0x126117D3 /* Vendor Device ID	*/
144 #define PCIDevVenIDARC1270              0x127017D3 /* Vendor Device ID	*/
145 #define PCIDevVenIDARC1280              0x128017D3 /* Vendor Device ID	*/
146 #define PCIDevVenIDARC1380              0x138017D3 /* Vendor Device ID	*/
147 #define PCIDevVenIDARC1381              0x138117D3 /* Vendor Device ID	*/
148 #define PCIDevVenIDARC1680              0x168017D3 /* Vendor Device ID	*/
149 #define PCIDevVenIDARC1681              0x168117D3 /* Vendor Device ID	*/
150 #define PCIDevVenIDARC1880              0x188017D3 /* Vendor Device ID	*/
151 #define PCIDevVenIDARC1882              0x188217D3 /* Vendor Device ID	*/
152 #define PCIDevVenIDARC1884              0x188417D3 /* Vendor Device ID	*/
153 #define PCIDevVenIDARC1886_             0x188917D3 /* Vendor Device ID	*/
154 #define PCIDevVenIDARC1886              0x188A17D3 /* Vendor Device ID	*/
155 
156 #ifndef PCIR_BARS
157 	#define PCIR_BARS	0x10
158 	#define	PCIR_BAR(x)	(PCIR_BARS + (x) * 4)
159 #endif
160 
161 #define PCI_BASE_ADDR0                  0x10
162 #define PCI_BASE_ADDR1                  0x14
163 #define PCI_BASE_ADDR2                  0x18
164 #define PCI_BASE_ADDR3                  0x1C
165 #define PCI_BASE_ADDR4                  0x20
166 #define PCI_BASE_ADDR5                  0x24
167 /*
168 **********************************************************************************
169 **
170 **********************************************************************************
171 */
172 #define ARCMSR_SCSICMD_IOCTL            0x77
173 #define ARCMSR_CDEVSW_IOCTL             0x88
174 #define ARCMSR_MESSAGE_FAIL             0x0001
175 #define	ARCMSR_MESSAGE_SUCCESS          0x0000
176 /*
177 **********************************************************************************
178 **
179 **********************************************************************************
180 */
181 #define arcmsr_ccbsrb_ptr	spriv_ptr0
182 #define arcmsr_ccbacb_ptr	spriv_ptr1
183 #define dma_addr_hi32(addr)	(u_int32_t) ((addr>>16)>>16)
184 #define dma_addr_lo32(addr)	(u_int32_t) (addr & 0xffffffff)
185 #define get_min(x,y)		((x) < (y) ? (x) : (y))
186 #define get_max(x,y)		((x) < (y) ? (y) : (x))
187 /*
188 **************************************************************************
189 **************************************************************************
190 */
191 #define CHIP_REG_READ32(s, b, r)	bus_space_read_4(acb->btag[b], acb->bhandle[b], offsetof(struct s, r))
192 #define CHIP_REG_WRITE32(s, b, r, d)	bus_space_write_4(acb->btag[b], acb->bhandle[b], offsetof(struct s, r), d)
193 #define READ_CHIP_REG32(b, r)		bus_space_read_4(acb->btag[b], acb->bhandle[b], r)
194 #define WRITE_CHIP_REG32(b, r, d)	bus_space_write_4(acb->btag[b], acb->bhandle[b], r, d)
195 /*
196 **********************************************************************************
197 **    IOCTL CONTROL Mail Box
198 **********************************************************************************
199 */
200 struct CMD_MESSAGE {
201       u_int32_t HeaderLength;
202       u_int8_t Signature[8];
203       u_int32_t Timeout;
204       u_int32_t ControlCode;
205       u_int32_t ReturnCode;
206       u_int32_t Length;
207 };
208 
209 struct CMD_MESSAGE_FIELD {
210     struct CMD_MESSAGE cmdmessage; /* ioctl header */
211     u_int8_t           messagedatabuffer[1032]; /* areca gui program does not accept more than 1031 byte */
212 };
213 
214 /************************************************************************/
215 /************************************************************************/
216 
217 #define ARCMSR_IOP_ERROR_ILLEGALPCI		0x0001
218 #define ARCMSR_IOP_ERROR_VENDORID		0x0002
219 #define ARCMSR_IOP_ERROR_DEVICEID		0x0002
220 #define ARCMSR_IOP_ERROR_ILLEGALCDB		0x0003
221 #define ARCMSR_IOP_ERROR_UNKNOW_CDBERR		0x0004
222 #define ARCMSR_SYS_ERROR_MEMORY_ALLOCATE	0x0005
223 #define ARCMSR_SYS_ERROR_MEMORY_CROSS4G		0x0006
224 #define ARCMSR_SYS_ERROR_MEMORY_LACK		0x0007
225 #define ARCMSR_SYS_ERROR_MEMORY_RANGE		0x0008
226 #define ARCMSR_SYS_ERROR_DEVICE_BASE		0x0009
227 #define ARCMSR_SYS_ERROR_PORT_VALIDATE		0x000A
228 
229 /*DeviceType*/
230 #define ARECA_SATA_RAID                      	0x90000000
231 
232 /*FunctionCode*/
233 #define FUNCTION_READ_RQBUFFER               	0x0801
234 #define FUNCTION_WRITE_WQBUFFER              	0x0802
235 #define FUNCTION_CLEAR_RQBUFFER              	0x0803
236 #define FUNCTION_CLEAR_WQBUFFER              	0x0804
237 #define FUNCTION_CLEAR_ALLQBUFFER            	0x0805
238 #define FUNCTION_REQUEST_RETURNCODE_3F         	0x0806
239 #define FUNCTION_SAY_HELLO                   	0x0807
240 #define FUNCTION_SAY_GOODBYE                    0x0808
241 #define FUNCTION_FLUSH_ADAPTER_CACHE           	0x0809
242 /*
243 ************************************************************************
244 **      IOCTL CONTROL CODE
245 ************************************************************************
246 */
247 /* ARECA IO CONTROL CODE*/
248 #define ARCMSR_MESSAGE_READ_RQBUFFER           	_IOWR('F', FUNCTION_READ_RQBUFFER, struct CMD_MESSAGE_FIELD)
249 #define ARCMSR_MESSAGE_WRITE_WQBUFFER          	_IOWR('F', FUNCTION_WRITE_WQBUFFER, struct CMD_MESSAGE_FIELD)
250 #define ARCMSR_MESSAGE_CLEAR_RQBUFFER          	_IOWR('F', FUNCTION_CLEAR_RQBUFFER, struct CMD_MESSAGE_FIELD)
251 #define ARCMSR_MESSAGE_CLEAR_WQBUFFER          	_IOWR('F', FUNCTION_CLEAR_WQBUFFER, struct CMD_MESSAGE_FIELD)
252 #define ARCMSR_MESSAGE_CLEAR_ALLQBUFFER        	_IOWR('F', FUNCTION_CLEAR_ALLQBUFFER, struct CMD_MESSAGE_FIELD)
253 #define ARCMSR_MESSAGE_REQUEST_RETURNCODE_3F   	_IOWR('F', FUNCTION_REQUEST_RETURNCODE_3F, struct CMD_MESSAGE_FIELD)
254 #define ARCMSR_MESSAGE_SAY_HELLO               	_IOWR('F', FUNCTION_SAY_HELLO, struct CMD_MESSAGE_FIELD)
255 #define ARCMSR_MESSAGE_SAY_GOODBYE              _IOWR('F', FUNCTION_SAY_GOODBYE, struct CMD_MESSAGE_FIELD)
256 #define ARCMSR_MESSAGE_FLUSH_ADAPTER_CACHE      _IOWR('F', FUNCTION_FLUSH_ADAPTER_CACHE, struct CMD_MESSAGE_FIELD)
257 
258 /* ARECA IOCTL ReturnCode */
259 #define ARCMSR_MESSAGE_RETURNCODE_OK		0x00000001
260 #define ARCMSR_MESSAGE_RETURNCODE_ERROR		0x00000006
261 #define ARCMSR_MESSAGE_RETURNCODE_3F		0x0000003F
262 #define ARCMSR_IOCTL_RETURNCODE_BUS_HANG_ON	0x00000088
263 /*
264 ************************************************************************
265 **                SPEC. for Areca HBA adapter
266 ************************************************************************
267 */
268 /* signature of set and get firmware config */
269 #define ARCMSR_SIGNATURE_GET_CONFIG		0x87974060
270 #define ARCMSR_SIGNATURE_SET_CONFIG		0x87974063
271 /* message code of inbound message register */
272 #define ARCMSR_INBOUND_MESG0_NOP		0x00000000
273 #define ARCMSR_INBOUND_MESG0_GET_CONFIG		0x00000001
274 #define ARCMSR_INBOUND_MESG0_SET_CONFIG		0x00000002
275 #define ARCMSR_INBOUND_MESG0_ABORT_CMD		0x00000003
276 #define ARCMSR_INBOUND_MESG0_STOP_BGRB		0x00000004
277 #define ARCMSR_INBOUND_MESG0_FLUSH_CACHE	0x00000005
278 #define ARCMSR_INBOUND_MESG0_START_BGRB		0x00000006
279 #define ARCMSR_INBOUND_MESG0_CHK331PENDING	0x00000007
280 #define ARCMSR_INBOUND_MESG0_SYNC_TIMER		0x00000008
281 /* doorbell interrupt generator */
282 #define ARCMSR_INBOUND_DRIVER_DATA_WRITE_OK	0x00000001
283 #define ARCMSR_INBOUND_DRIVER_DATA_READ_OK	0x00000002
284 #define ARCMSR_OUTBOUND_IOP331_DATA_WRITE_OK	0x00000001
285 #define ARCMSR_OUTBOUND_IOP331_DATA_READ_OK	0x00000002
286 /* srb areca cdb flag */
287 #define ARCMSR_SRBPOST_FLAG_SGL_BSIZE		0x80000000
288 #define ARCMSR_SRBPOST_FLAG_IAM_BIOS		0x40000000
289 #define ARCMSR_SRBREPLY_FLAG_IAM_BIOS		0x40000000
290 #define ARCMSR_SRBREPLY_FLAG_ERROR		0x10000000
291 #define ARCMSR_SRBREPLY_FLAG_ERROR_MODE0        0x10000000
292 #define ARCMSR_SRBREPLY_FLAG_ERROR_MODE1	0x00000001
293 /* outbound firmware ok */
294 #define ARCMSR_OUTBOUND_MESG1_FIRMWARE_OK	0x80000000
295 
296 #define ARCMSR_ARC1680_BUS_RESET		0x00000003
297 /*
298 ************************************************************************
299 **                SPEC. for Areca HBB adapter
300 ************************************************************************
301 */
302 /* ARECA HBB COMMAND for its FIRMWARE */
303 #define ARCMSR_DRV2IOP_DOORBELL                 0x00020400    /* window of "instruction flags" from driver to iop */
304 #define ARCMSR_DRV2IOP_DOORBELL_MASK            0x00020404
305 #define ARCMSR_IOP2DRV_DOORBELL                 0x00020408    /* window of "instruction flags" from iop to driver */
306 #define ARCMSR_IOP2DRV_DOORBELL_MASK            0x0002040C
307 
308 #define ARCMSR_IOP2DRV_DOORBELL_1203            0x00021870    /* window of "instruction flags" from iop to driver */
309 #define ARCMSR_IOP2DRV_DOORBELL_MASK_1203       0x00021874
310 #define ARCMSR_DRV2IOP_DOORBELL_1203            0x00021878    /* window of "instruction flags" from driver to iop */
311 #define ARCMSR_DRV2IOP_DOORBELL_MASK_1203       0x0002187C
312 
313 /* ARECA FLAG LANGUAGE */
314 #define ARCMSR_IOP2DRV_DATA_WRITE_OK            0x00000001        /* ioctl transfer */
315 #define ARCMSR_IOP2DRV_DATA_READ_OK             0x00000002        /* ioctl transfer */
316 #define ARCMSR_IOP2DRV_CDB_DONE                 0x00000004
317 #define ARCMSR_IOP2DRV_MESSAGE_CMD_DONE         0x00000008
318 
319 #define ARCMSR_DOORBELL_HANDLE_INT		0x0000000F
320 #define ARCMSR_DOORBELL_INT_CLEAR_PATTERN       0xFF00FFF0
321 #define ARCMSR_MESSAGE_INT_CLEAR_PATTERN        0xFF00FFF7
322 
323 #define ARCMSR_MESSAGE_GET_CONFIG		0x00010008	/* (ARCMSR_INBOUND_MESG0_GET_CONFIG<<16)|ARCMSR_DRV2IOP_MESSAGE_CMD_POSTED) */
324 #define ARCMSR_MESSAGE_SET_CONFIG		0x00020008	/* (ARCMSR_INBOUND_MESG0_SET_CONFIG<<16)|ARCMSR_DRV2IOP_MESSAGE_CMD_POSTED) */
325 #define ARCMSR_MESSAGE_ABORT_CMD		0x00030008	/* (ARCMSR_INBOUND_MESG0_ABORT_CMD<<16)|ARCMSR_DRV2IOP_MESSAGE_CMD_POSTED) */
326 #define ARCMSR_MESSAGE_STOP_BGRB		0x00040008	/* (ARCMSR_INBOUND_MESG0_STOP_BGRB<<16)|ARCMSR_DRV2IOP_MESSAGE_CMD_POSTED) */
327 #define ARCMSR_MESSAGE_FLUSH_CACHE              0x00050008	/* (ARCMSR_INBOUND_MESG0_FLUSH_CACHE<<16)|ARCMSR_DRV2IOP_MESSAGE_CMD_POSTED) */
328 #define ARCMSR_MESSAGE_START_BGRB		0x00060008	/* (ARCMSR_INBOUND_MESG0_START_BGRB<<16)|ARCMSR_DRV2IOP_MESSAGE_CMD_POSTED) */
329 #define ARCMSR_MESSAGE_START_DRIVER_MODE	0x000E0008
330 #define ARCMSR_MESSAGE_SET_POST_WINDOW		0x000F0008
331 #define ARCMSR_MESSAGE_ACTIVE_EOI_MODE		0x00100008
332 #define ARCMSR_MESSAGE_FIRMWARE_OK		0x80000000	/* ARCMSR_OUTBOUND_MESG1_FIRMWARE_OK */
333 
334 #define ARCMSR_DRV2IOP_DATA_WRITE_OK            0x00000001	/* ioctl transfer */
335 #define ARCMSR_DRV2IOP_DATA_READ_OK             0x00000002	/* ioctl transfer */
336 #define ARCMSR_DRV2IOP_CDB_POSTED               0x00000004
337 #define ARCMSR_DRV2IOP_MESSAGE_CMD_POSTED       0x00000008
338 #define ARCMSR_DRV2IOP_END_OF_INTERRUPT         0x00000010  /*  */
339 
340 /* data tunnel buffer between user space program and its firmware */
341 #define ARCMSR_MSGCODE_RWBUFFER			0x0000fa00    /* iop msgcode_rwbuffer for message command */
342 #define ARCMSR_IOCTL_WBUFFER			0x0000fe00    /* user space data to iop 128bytes */
343 #define ARCMSR_IOCTL_RBUFFER			0x0000ff00    /* iop data to user space 128bytes */
344 #define ARCMSR_HBB_BASE0_OFFSET			0x00000010
345 #define ARCMSR_HBB_BASE1_OFFSET			0x00000018
346 #define ARCMSR_HBB_BASE0_LEN			0x00021000
347 #define ARCMSR_HBB_BASE1_LEN			0x00010000
348 /*
349 ************************************************************************
350 **                SPEC. for Areca HBC adapter
351 ************************************************************************
352 */
353 #define ARCMSR_HBC_ISR_THROTTLING_LEVEL                 12
354 #define ARCMSR_HBC_ISR_MAX_DONE_QUEUE                   20
355 /* Host Interrupt Mask */
356 #define ARCMSR_HBCMU_UTILITY_A_ISR_MASK                 0x00000001 /* When clear, the Utility_A interrupt routes to the host.*/
357 #define ARCMSR_HBCMU_OUTBOUND_DOORBELL_ISR_MASK         0x00000004 /* When clear, the General Outbound Doorbell interrupt routes to the host.*/
358 #define ARCMSR_HBCMU_OUTBOUND_POSTQUEUE_ISR_MASK        0x00000008 /* When clear, the Outbound Post List FIFO Not Empty interrupt routes to the host.*/
359 #define ARCMSR_HBCMU_ALL_INTMASKENABLE                  0x0000000D /* disable all ISR */
360 /* Host Interrupt Status */
361 #define ARCMSR_HBCMU_UTILITY_A_ISR                      0x00000001
362         /*
363         ** Set when the Utility_A Interrupt bit is set in the Outbound Doorbell Register.
364         ** It clears by writing a 1 to the Utility_A bit in the Outbound Doorbell Clear Register or through automatic clearing (if enabled).
365         */
366 #define ARCMSR_HBCMU_OUTBOUND_DOORBELL_ISR              0x00000004
367         /*
368         ** Set if Outbound Doorbell register bits 30:1 have a non-zero
369         ** value. This bit clears only when Outbound Doorbell bits
370         ** 30:1 are ALL clear. Only a write to the Outbound Doorbell
371         ** Clear register clears bits in the Outbound Doorbell register.
372         */
373 #define ARCMSR_HBCMU_OUTBOUND_POSTQUEUE_ISR             0x00000008
374         /*
375         ** Set whenever the Outbound Post List Producer/Consumer
376         ** Register (FIFO) is not empty. It clears when the Outbound
377         ** Post List FIFO is empty.
378         */
379 #define ARCMSR_HBCMU_SAS_ALL_INT                        0x00000010
380         /*
381         ** This bit indicates a SAS interrupt from a source external to
382         ** the PCIe core. This bit is not maskable.
383         */
384 /* DoorBell*/
385 #define ARCMSR_HBCMU_DRV2IOP_DATA_WRITE_OK                      0x00000002/**/
386 #define ARCMSR_HBCMU_DRV2IOP_DATA_READ_OK                       0x00000004/**/
387 #define ARCMSR_HBCMU_DRV2IOP_MESSAGE_CMD_DONE                   0x00000008/*inbound message 0 ready*/
388 #define ARCMSR_HBCMU_DRV2IOP_POSTQUEUE_THROTTLING               0x00000010/*more than 12 request completed in a time*/
389 #define ARCMSR_HBCMU_IOP2DRV_DATA_WRITE_OK                      0x00000002/**/
390 #define ARCMSR_HBCMU_IOP2DRV_DATA_WRITE_DOORBELL_CLEAR          0x00000002/*outbound DATA WRITE isr door bell clear*/
391 #define ARCMSR_HBCMU_IOP2DRV_DATA_READ_OK                       0x00000004/**/
392 #define ARCMSR_HBCMU_IOP2DRV_DATA_READ_DOORBELL_CLEAR           0x00000004/*outbound DATA READ isr door bell clear*/
393 #define ARCMSR_HBCMU_IOP2DRV_MESSAGE_CMD_DONE                   0x00000008/*outbound message 0 ready*/
394 #define ARCMSR_HBCMU_IOP2DRV_MESSAGE_CMD_DONE_DOORBELL_CLEAR    0x00000008/*outbound message cmd isr door bell clear*/
395 #define ARCMSR_HBCMU_MESSAGE_FIRMWARE_OK		        0x80000000/*ARCMSR_HBCMU_MESSAGE_FIRMWARE_OK*/
396 #define ARCMSR_HBCMU_RESET_ADAPTER				0x00000024
397 #define ARCMSR_HBCMU_DiagWrite_ENABLE				0x00000080
398 
399 /*
400 ************************************************************************
401 **                SPEC. for Areca HBD adapter
402 ************************************************************************
403 */
404 #define ARCMSR_HBDMU_CHIP_ID				0x00004
405 #define ARCMSR_HBDMU_CPU_MEMORY_CONFIGURATION		0x00008
406 #define ARCMSR_HBDMU_I2_HOST_INTERRUPT_MASK		0x00034
407 #define ARCMSR_HBDMU_MAIN_INTERRUPT_STATUS		0x00200
408 #define ARCMSR_HBDMU_PCIE_F0_INTERRUPT_ENABLE		0x0020C
409 #define ARCMSR_HBDMU_INBOUND_MESSAGE0			0x00400
410 #define ARCMSR_HBDMU_INBOUND_MESSAGE1			0x00404
411 #define ARCMSR_HBDMU_OUTBOUND_MESSAGE0			0x00420
412 #define ARCMSR_HBDMU_OUTBOUND_MESSAGE1			0x00424
413 #define ARCMSR_HBDMU_INBOUND_DOORBELL			0x00460
414 #define ARCMSR_HBDMU_OUTBOUND_DOORBELL			0x00480
415 #define ARCMSR_HBDMU_OUTBOUND_DOORBELL_ENABLE		0x00484
416 #define ARCMSR_HBDMU_INBOUND_LIST_BASE_LOW		0x01000
417 #define ARCMSR_HBDMU_INBOUND_LIST_BASE_HIGH		0x01004
418 #define ARCMSR_HBDMU_INBOUND_LIST_WRITE_POINTER		0x01018
419 #define ARCMSR_HBDMU_OUTBOUND_LIST_BASE_LOW		0x01060
420 #define ARCMSR_HBDMU_OUTBOUND_LIST_BASE_HIGH		0x01064
421 #define ARCMSR_HBDMU_OUTBOUND_LIST_COPY_POINTER		0x0106C
422 #define ARCMSR_HBDMU_OUTBOUND_LIST_READ_POINTER		0x01070
423 #define ARCMSR_HBDMU_OUTBOUND_INTERRUPT_CAUSE		0x01088
424 #define ARCMSR_HBDMU_OUTBOUND_INTERRUPT_ENABLE		0x0108C
425 
426 #define ARCMSR_HBDMU_MESSAGE_WBUFFER			0x02000
427 #define ARCMSR_HBDMU_MESSAGE_RBUFFER			0x02100
428 #define ARCMSR_HBDMU_MESSAGE_RWBUFFER			0x02200
429 
430 #define ARCMSR_HBDMU_ISR_THROTTLING_LEVEL		16
431 #define ARCMSR_HBDMU_ISR_MAX_DONE_QUEUE			20
432 
433 /* Host Interrupt Mask */
434 #define ARCMSR_HBDMU_ALL_INT_ENABLE			0x00001010	/* enable all ISR */
435 #define ARCMSR_HBDMU_ALL_INT_DISABLE			0x00000000	/* disable all ISR */
436 
437 /* Host Interrupt Status */
438 #define ARCMSR_HBDMU_OUTBOUND_INT			0x00001010
439 #define ARCMSR_HBDMU_OUTBOUND_DOORBELL_INT		0x00001000
440 #define ARCMSR_HBDMU_OUTBOUND_POSTQUEUE_INT		0x00000010
441 
442 /* DoorBell*/
443 #define ARCMSR_HBDMU_DRV2IOP_DATA_IN_READY		0x00000001
444 #define ARCMSR_HBDMU_DRV2IOP_DATA_OUT_READ		0x00000002
445 
446 #define ARCMSR_HBDMU_IOP2DRV_DATA_WRITE_OK		0x00000001
447 #define ARCMSR_HBDMU_IOP2DRV_DATA_READ_OK		0x00000002
448 
449 /*outbound message 0 ready*/
450 #define ARCMSR_HBDMU_IOP2DRV_MESSAGE_CMD_DONE		0x02000000
451 
452 #define ARCMSR_HBDMU_F0_DOORBELL_CAUSE			0x02000003
453 
454 /*outbound message cmd isr door bell clear*/
455 #define ARCMSR_HBDMU_IOP2DRV_MESSAGE_CMD_DONE_CLEAR	0x02000000
456 
457 /*outbound list */
458 #define ARCMSR_HBDMU_OUTBOUND_LIST_INTERRUPT		0x00000001
459 #define ARCMSR_HBDMU_OUTBOUND_LIST_INTERRUPT_CLEAR	0x00000001
460 
461 /*ARCMSR_HBAMU_MESSAGE_FIRMWARE_OK*/
462 #define ARCMSR_HBDMU_MESSAGE_FIRMWARE_OK		0x80000000
463 /*
464 *******************************************************************************
465 **                SPEC. for Areca HBE adapter
466 *******************************************************************************
467 */
468 #define ARCMSR_SIGNATURE_1884				0x188417D3
469 #define ARCMSR_HBEMU_OUTBOUND_DOORBELL_ISR		0x00000001
470 #define ARCMSR_HBEMU_OUTBOUND_POSTQUEUE_ISR		0x00000008
471 #define ARCMSR_HBEMU_ALL_INTMASKENABLE			0x00000009 /* disable all ISR */
472 
473 #define ARCMSR_HBEMU_DRV2IOP_DATA_WRITE_OK		0x00000002
474 #define ARCMSR_HBEMU_DRV2IOP_DATA_READ_OK		0x00000004
475 #define ARCMSR_HBEMU_DRV2IOP_MESSAGE_CMD_DONE		0x00000008 /* inbound message 0 ready */
476 #define ARCMSR_HBEMU_IOP2DRV_DATA_WRITE_OK		0x00000002
477 #define ARCMSR_HBEMU_IOP2DRV_DATA_READ_OK		0x00000004
478 #define ARCMSR_HBEMU_IOP2DRV_MESSAGE_CMD_DONE		0x00000008 /* outbound message 0 ready */
479 #define ARCMSR_HBEMU_MESSAGE_FIRMWARE_OK		0x80000000 /* ARCMSR_HBCMU_MESSAGE_FIRMWARE_OK */
480 /* ARC-1884 doorbell sync */
481 #define ARCMSR_HBEMU_DOORBELL_SYNC			0x100
482 #define ARCMSR_ARC188X_RESET_ADAPTER			0x00000004
483 /*
484 *******************************************************************************
485 **                SPEC. for Areca HBF adapter
486 *******************************************************************************
487 */
488 #define ARCMSR_SIGNATURE_1886				0x188617D3
489 // Doorbell and interrupt definition are same as Type E adapter
490 /* ARC-1886 doorbell sync */
491 #define ARCMSR_HBFMU_DOORBELL_SYNC			0x100
492 //set host rw buffer physical address at inbound message 0, 1 (low,high)
493 #define ARCMSR_HBFMU_DOORBELL_SYNC1			0x300
494 #define ARCMSR_HBFMU_MESSAGE_FIRMWARE_OK		0x80000000
495 #define ARCMSR_HBFMU_MESSAGE_NO_VOLUME_CHANGE		0x20000000
496 
497 /*
498 *********************************************************************
499 **     Messaging Unit (MU) of Type A processor
500 *********************************************************************
501 */
502 struct HBA_MessageUnit
503 {
504 	u_int32_t	resrved0[4];		/*0000 000F*/
505 	u_int32_t	inbound_msgaddr0;	/*0010 0013*/
506 	u_int32_t	inbound_msgaddr1;	/*0014 0017*/
507 	u_int32_t	outbound_msgaddr0;	/*0018 001B*/
508 	u_int32_t	outbound_msgaddr1;	/*001C 001F*/
509 	u_int32_t	inbound_doorbell;	/*0020 0023*/
510 	u_int32_t	inbound_intstatus;	/*0024 0027*/
511 	u_int32_t	inbound_intmask;	/*0028 002B*/
512 	u_int32_t	outbound_doorbell;	/*002C 002F*/
513 	u_int32_t	outbound_intstatus;	/*0030 0033*/
514 	u_int32_t	outbound_intmask;	/*0034 0037*/
515 	u_int32_t	reserved1[2];		/*0038 003F*/
516 	u_int32_t	inbound_queueport;	/*0040 0043*/
517 	u_int32_t	outbound_queueport;	/*0044 0047*/
518 	u_int32_t	reserved2[2];		/*0048 004F*/
519 	u_int32_t	reserved3[492];		/*0050 07FF ......local_buffer 492*/
520 	u_int32_t	reserved4[128];		/*0800 09FF                    128*/
521 	u_int32_t	msgcode_rwbuffer[256];	/*0a00 0DFF                    256*/
522 	u_int32_t	message_wbuffer[32];	/*0E00 0E7F                     32*/
523 	u_int32_t	reserved5[32];		/*0E80 0EFF                     32*/
524 	u_int32_t	message_rbuffer[32];	/*0F00 0F7F                     32*/
525 	u_int32_t	reserved6[32];		/*0F80 0FFF                     32*/
526 };
527 /*
528 *********************************************************************
529 **
530 *********************************************************************
531 */
532 struct HBB_DOORBELL_1203
533 {
534 	u_int8_t	doorbell_reserved[ARCMSR_IOP2DRV_DOORBELL_1203]; /*reserved */
535 	u_int32_t	iop2drv_doorbell;          /*offset 0x00021870:00,01,02,03: window of "instruction flags" from iop to driver */
536 	u_int32_t	iop2drv_doorbell_mask;     /*                  04,05,06,07: doorbell mask */
537 	u_int32_t	drv2iop_doorbell;          /*                  08,09,10,11: window of "instruction flags" from driver to iop */
538 	u_int32_t	drv2iop_doorbell_mask;     /*                  12,13,14,15: doorbell mask */
539 };
540 struct HBB_DOORBELL
541 {
542 	u_int8_t	doorbell_reserved[ARCMSR_DRV2IOP_DOORBELL]; /*reserved */
543 	u_int32_t	drv2iop_doorbell;          /*offset 0x00020400:00,01,02,03: window of "instruction flags" from driver to iop */
544 	u_int32_t	drv2iop_doorbell_mask;     /*                  04,05,06,07: doorbell mask */
545 	u_int32_t	iop2drv_doorbell;          /*                  08,09,10,11: window of "instruction flags" from iop to driver */
546 	u_int32_t	iop2drv_doorbell_mask;     /*                  12,13,14,15: doorbell mask */
547 };
548 /*
549 *********************************************************************
550 **
551 *********************************************************************
552 */
553 struct HBB_RWBUFFER
554 {
555 	u_int8_t	message_reserved0[ARCMSR_MSGCODE_RWBUFFER];   /*reserved */
556 	u_int32_t	msgcode_rwbuffer[256];      /*offset 0x0000fa00:   0,   1,   2,   3,...,1023: message code read write 1024bytes */
557 	u_int32_t	message_wbuffer[32];        /*offset 0x0000fe00:1024,1025,1026,1027,...,1151: user space data to iop 128bytes */
558 	u_int32_t	message_reserved1[32];      /*                  1152,1153,1154,1155,...,1279: message reserved*/
559 	u_int32_t	message_rbuffer[32];        /*offset 0x0000ff00:1280,1281,1282,1283,...,1407: iop data to user space 128bytes */
560 };
561 /*
562 *********************************************************************
563 **      Messaging Unit (MU) of Type B processor(MARVEL)
564 *********************************************************************
565 */
566 struct HBB_MessageUnit
567 {
568 	u_int32_t		post_qbuffer[ARCMSR_MAX_HBB_POSTQUEUE];       /* post queue buffer for iop */
569 	u_int32_t		done_qbuffer[ARCMSR_MAX_HBB_POSTQUEUE];       /* done queue buffer for iop */
570 	int32_t			postq_index;                                  /* post queue index */
571 	int32_t			doneq_index;								   /* done queue index */
572 	struct HBB_DOORBELL    *hbb_doorbell;
573 	struct HBB_RWBUFFER    *hbb_rwbuffer;
574 	bus_size_t		drv2iop_doorbell;          /* window of "instruction flags" from driver to iop */
575 	bus_size_t		drv2iop_doorbell_mask;     /* doorbell mask */
576 	bus_size_t		iop2drv_doorbell;          /* window of "instruction flags" from iop to driver */
577 	bus_size_t		iop2drv_doorbell_mask;     /* doorbell mask */
578 };
579 
580 /*
581 *********************************************************************
582 **      Messaging Unit (MU) of Type C processor(LSI)
583 *********************************************************************
584 */
585 struct HBC_MessageUnit {
586 	u_int32_t	message_unit_status;                        /*0000 0003*/
587 	u_int32_t	slave_error_attribute;	                    /*0004 0007*/
588 	u_int32_t	slave_error_address;	                    /*0008 000B*/
589 	u_int32_t	posted_outbound_doorbell;	            /*000C 000F*/
590 	u_int32_t	master_error_attribute;	                    /*0010 0013*/
591 	u_int32_t	master_error_address_low;	            /*0014 0017*/
592 	u_int32_t	master_error_address_high;	            /*0018 001B*/
593 	u_int32_t	hcb_size;                                   /*001C 001F size of the PCIe window used for HCB_Mode accesses*/
594 	u_int32_t	inbound_doorbell;	                    /*0020 0023*/
595 	u_int32_t	diagnostic_rw_data;	                    /*0024 0027*/
596 	u_int32_t	diagnostic_rw_address_low;	            /*0028 002B*/
597 	u_int32_t	diagnostic_rw_address_high;	            /*002C 002F*/
598 	u_int32_t	host_int_status;	                    /*0030 0033 host interrupt status*/
599 	u_int32_t	host_int_mask;     	                    /*0034 0037 host interrupt mask*/
600 	u_int32_t	dcr_data;	                            /*0038 003B*/
601 	u_int32_t	dcr_address;                                /*003C 003F*/
602 	u_int32_t	inbound_queueport;                          /*0040 0043 port32 host inbound queue port*/
603 	u_int32_t	outbound_queueport;                         /*0044 0047 port32 host outbound queue port*/
604 	u_int32_t	hcb_pci_address_low;                        /*0048 004B*/
605 	u_int32_t	hcb_pci_address_high;                       /*004C 004F*/
606 	u_int32_t	iop_int_status;                             /*0050 0053*/
607 	u_int32_t	iop_int_mask;                               /*0054 0057*/
608 	u_int32_t	iop_inbound_queue_port;                     /*0058 005B*/
609 	u_int32_t	iop_outbound_queue_port;                    /*005C 005F*/
610 	u_int32_t	inbound_free_list_index;                    /*0060 0063 inbound free list producer consumer index*/
611 	u_int32_t	inbound_post_list_index;                    /*0064 0067 inbound post list producer consumer index*/
612 	u_int32_t	outbound_free_list_index;                   /*0068 006B outbound free list producer consumer index*/
613 	u_int32_t	outbound_post_list_index;                   /*006C 006F outbound post list producer consumer index*/
614 	u_int32_t	inbound_doorbell_clear;                     /*0070 0073*/
615 	u_int32_t	i2o_message_unit_control;                   /*0074 0077*/
616 	u_int32_t	last_used_message_source_address_low;       /*0078 007B*/
617 	u_int32_t	last_used_message_source_address_high;	    /*007C 007F*/
618 	u_int32_t	pull_mode_data_byte_count[4];               /*0080 008F pull mode data byte count0..count7*/
619 	u_int32_t	message_dest_address_index;                 /*0090 0093*/
620 	u_int32_t	done_queue_not_empty_int_counter_timer;     /*0094 0097*/
621 	u_int32_t	utility_A_int_counter_timer;                /*0098 009B*/
622 	u_int32_t	outbound_doorbell;                          /*009C 009F*/
623 	u_int32_t	outbound_doorbell_clear;                    /*00A0 00A3*/
624 	u_int32_t	message_source_address_index;               /*00A4 00A7 message accelerator source address consumer producer index*/
625 	u_int32_t	message_done_queue_index;                   /*00A8 00AB message accelerator completion queue consumer producer index*/
626 	u_int32_t	reserved0;                                  /*00AC 00AF*/
627 	u_int32_t	inbound_msgaddr0;                           /*00B0 00B3 scratchpad0*/
628 	u_int32_t	inbound_msgaddr1;                           /*00B4 00B7 scratchpad1*/
629 	u_int32_t	outbound_msgaddr0;                          /*00B8 00BB scratchpad2*/
630 	u_int32_t	outbound_msgaddr1;                          /*00BC 00BF scratchpad3*/
631 	u_int32_t	inbound_queueport_low;                      /*00C0 00C3 port64 host inbound queue port low*/
632 	u_int32_t	inbound_queueport_high;                     /*00C4 00C7 port64 host inbound queue port high*/
633 	u_int32_t	outbound_queueport_low;                     /*00C8 00CB port64 host outbound queue port low*/
634 	u_int32_t	outbound_queueport_high;                    /*00CC 00CF port64 host outbound queue port high*/
635 	u_int32_t	iop_inbound_queue_port_low;                 /*00D0 00D3*/
636 	u_int32_t	iop_inbound_queue_port_high;                /*00D4 00D7*/
637 	u_int32_t	iop_outbound_queue_port_low;                /*00D8 00DB*/
638 	u_int32_t	iop_outbound_queue_port_high;               /*00DC 00DF*/
639 	u_int32_t	message_dest_queue_port_low;                /*00E0 00E3 message accelerator destination queue port low*/
640 	u_int32_t	message_dest_queue_port_high;               /*00E4 00E7 message accelerator destination queue port high*/
641 	u_int32_t	last_used_message_dest_address_low;         /*00E8 00EB last used message accelerator destination address low*/
642 	u_int32_t	last_used_message_dest_address_high;        /*00EC 00EF last used message accelerator destination address high*/
643 	u_int32_t	message_done_queue_base_address_low;        /*00F0 00F3 message accelerator completion queue base address low*/
644 	u_int32_t	message_done_queue_base_address_high;       /*00F4 00F7 message accelerator completion queue base address high*/
645 	u_int32_t	host_diagnostic;                            /*00F8 00FB*/
646 	u_int32_t	write_sequence;                             /*00FC 00FF*/
647 	u_int32_t	reserved1[34];                              /*0100 0187*/
648 	u_int32_t	reserved2[1950];                            /*0188 1FFF*/
649 	u_int32_t	message_wbuffer[32];                        /*2000 207F*/
650 	u_int32_t	reserved3[32];                              /*2080 20FF*/
651 	u_int32_t	message_rbuffer[32];                        /*2100 217F*/
652 	u_int32_t	reserved4[32];                              /*2180 21FF*/
653 	u_int32_t	msgcode_rwbuffer[256];                      /*2200 23FF*/
654 };
655 /*
656 *********************************************************************
657 **      Messaging Unit (MU) of Type D processor
658 *********************************************************************
659 */
660 struct InBound_SRB {
661 	uint32_t addressLow; //pointer to SRB block
662 	uint32_t addressHigh;
663 	uint32_t length; // in DWORDs
664 	uint32_t reserved0;
665 };
666 
667 struct OutBound_SRB {
668 	uint32_t addressLow; //pointer to SRB block
669 	uint32_t addressHigh;
670 };
671 
672 struct HBD_MessageUnit {
673 	uint32_t reserved0;
674 	uint32_t chip_id;			//0x0004
675 	uint32_t cpu_mem_config;		//0x0008
676 	uint32_t reserved1[10];			//0x000C
677 	uint32_t i2o_host_interrupt_mask;	//0x0034
678 	uint32_t reserved2[114];		//0x0038
679 	uint32_t host_int_status;		//0x0200
680 	uint32_t host_int_enable;		//0x0204
681 	uint32_t reserved3[1];			//0x0208
682 	uint32_t pcief0_int_enable;		//0x020C
683 	uint32_t reserved4[124];		//0x0210
684 	uint32_t inbound_msgaddr0;		//0x0400
685 	uint32_t inbound_msgaddr1;		//0x0404
686 	uint32_t reserved5[6];			//0x0408
687 	uint32_t outbound_msgaddr0;		//0x0420
688 	uint32_t outbound_msgaddr1;		//0x0424
689 	uint32_t reserved6[14];			//0x0428
690 	uint32_t inbound_doorbell;		//0x0460
691 	uint32_t reserved7[7];			//0x0464
692 	uint32_t outbound_doorbell;		//0x0480
693 	uint32_t outbound_doorbell_enable;	//0x0484
694 	uint32_t reserved8[734];		//0x0488
695 	uint32_t inboundlist_base_low;		//0x1000
696 	uint32_t inboundlist_base_high;		//0x1004
697 	uint32_t reserved9[4];			//0x1008
698 	uint32_t inboundlist_write_pointer;	//0x1018
699 	uint32_t inboundlist_read_pointer;	//0x101C
700 	uint32_t reserved10[16];		//0x1020
701 	uint32_t outboundlist_base_low;		//0x1060
702 	uint32_t outboundlist_base_high;	//0x1064
703 	uint32_t reserved11;			//0x1068
704 	uint32_t outboundlist_copy_pointer;	//0x106C
705 	uint32_t outboundlist_read_pointer;	//0x1070 0x1072
706 	uint32_t reserved12[5];			//0x1074
707 	uint32_t outboundlist_interrupt_cause;	//0x1088
708 	uint32_t outboundlist_interrupt_enable;	//0x108C
709 	uint32_t reserved13[988];		//0x1090
710 	uint32_t message_wbuffer[32];		//0x2000
711 	uint32_t reserved14[32];		//0x2080
712 	uint32_t message_rbuffer[32];		//0x2100
713 	uint32_t reserved15[32];		//0x2180
714 	uint32_t msgcode_rwbuffer[256];		//0x2200
715 };
716 
717 struct HBD_MessageUnit0 {
718  	struct InBound_SRB post_qbuffer[ARCMSR_MAX_HBD_POSTQUEUE];
719    	struct OutBound_SRB done_qbuffer[ARCMSR_MAX_HBD_POSTQUEUE+1];
720 	uint16_t postq_index;
721 	uint16_t doneq_index;
722 	struct HBD_MessageUnit	*phbdmu;
723 };
724 /*
725 *********************************************************************
726 **      Messaging Unit (MU) of Type E processor(LSI)
727 *********************************************************************
728 */
729 struct HBE_MessageUnit {
730 	u_int32_t	iobound_doorbell;                           /*0000 0003*/
731 	u_int32_t	write_sequence_3xxx;	                    /*0004 0007*/
732 	u_int32_t	host_diagnostic_3xxx;	                    /*0008 000B*/
733 	u_int32_t	posted_outbound_doorbell;	            /*000C 000F*/
734 	u_int32_t	master_error_attribute;	                    /*0010 0013*/
735 	u_int32_t	master_error_address_low;	            /*0014 0017*/
736 	u_int32_t	master_error_address_high;	            /*0018 001B*/
737 	u_int32_t	hcb_size;                                   /*001C 001F*/
738 	u_int32_t	inbound_doorbell;	                    /*0020 0023*/
739 	u_int32_t	diagnostic_rw_data;	                    /*0024 0027*/
740 	u_int32_t	diagnostic_rw_address_low;	            /*0028 002B*/
741 	u_int32_t	diagnostic_rw_address_high;	            /*002C 002F*/
742 	u_int32_t	host_int_status;	                    /*0030 0033 host interrupt status*/
743 	u_int32_t	host_int_mask;     	                    /*0034 0037 host interrupt mask*/
744 	u_int32_t	dcr_data;	                            /*0038 003B*/
745 	u_int32_t	dcr_address;                                /*003C 003F*/
746 	u_int32_t	inbound_queueport;                          /*0040 0043 port32 host inbound queue port*/
747 	u_int32_t	outbound_queueport;                         /*0044 0047 port32 host outbound queue port*/
748 	u_int32_t	hcb_pci_address_low;                        /*0048 004B*/
749 	u_int32_t	hcb_pci_address_high;                       /*004C 004F*/
750 	u_int32_t	iop_int_status;                             /*0050 0053*/
751 	u_int32_t	iop_int_mask;                               /*0054 0057*/
752 	u_int32_t	iop_inbound_queue_port;                     /*0058 005B*/
753 	u_int32_t	iop_outbound_queue_port;                    /*005C 005F*/
754 	u_int32_t	inbound_free_list_index;                    /*0060 0063*/
755 	u_int32_t	inbound_post_list_index;                    /*0064 0067*/
756 	u_int32_t	outbound_free_list_index;                   /*0068 006B*/
757 	u_int32_t	outbound_post_list_index;                   /*006C 006F*/
758 	u_int32_t	inbound_doorbell_clear;                     /*0070 0073*/
759 	u_int32_t	i2o_message_unit_control;                   /*0074 0077*/
760 	u_int32_t	last_used_message_source_address_low;       /*0078 007B*/
761 	u_int32_t	last_used_message_source_address_high;	    /*007C 007F*/
762 	u_int32_t	pull_mode_data_byte_count[4];               /*0080 008F*/
763 	u_int32_t	message_dest_address_index;                 /*0090 0093*/
764 	u_int32_t	done_queue_not_empty_int_counter_timer;     /*0094 0097*/
765 	u_int32_t	utility_A_int_counter_timer;                /*0098 009B*/
766 	u_int32_t	outbound_doorbell;                          /*009C 009F*/
767 	u_int32_t	outbound_doorbell_clear;                    /*00A0 00A3*/
768 	u_int32_t	message_source_address_index;               /*00A4 00A7*/
769 	u_int32_t	message_done_queue_index;                   /*00A8 00AB*/
770 	u_int32_t	reserved0;                                  /*00AC 00AF*/
771 	u_int32_t	inbound_msgaddr0;                           /*00B0 00B3 scratchpad0*/
772 	u_int32_t	inbound_msgaddr1;                           /*00B4 00B7 scratchpad1*/
773 	u_int32_t	outbound_msgaddr0;                          /*00B8 00BB scratchpad2*/
774 	u_int32_t	outbound_msgaddr1;                          /*00BC 00BF scratchpad3*/
775 	u_int32_t	inbound_queueport_low;                      /*00C0 00C3 port64 host inbound queue port low*/
776 	u_int32_t	inbound_queueport_high;                     /*00C4 00C7 port64 host inbound queue port high*/
777 	u_int32_t	outbound_queueport_low;                     /*00C8 00CB port64 host outbound queue port low*/
778 	u_int32_t	outbound_queueport_high;                    /*00CC 00CF port64 host outbound queue port high*/
779 	u_int32_t	iop_inbound_queue_port_low;                 /*00D0 00D3*/
780 	u_int32_t	iop_inbound_queue_port_high;                /*00D4 00D7*/
781 	u_int32_t	iop_outbound_queue_port_low;                /*00D8 00DB*/
782 	u_int32_t	iop_outbound_queue_port_high;               /*00DC 00DF*/
783 	u_int32_t	message_dest_queue_port_low;                /*00E0 00E3*/
784 	u_int32_t	message_dest_queue_port_high;               /*00E4 00E7*/
785 	u_int32_t	last_used_message_dest_address_low;         /*00E8 00EB*/
786 	u_int32_t	last_used_message_dest_address_high;        /*00EC 00EF*/
787 	u_int32_t	message_done_queue_base_address_low;        /*00F0 00F3*/
788 	u_int32_t	message_done_queue_base_address_high;       /*00F4 00F7*/
789 	u_int32_t	host_diagnostic;                            /*00F8 00FB*/
790 	u_int32_t	write_sequence;                             /*00FC 00FF*/
791 	u_int32_t	reserved1[46];                              /*0100 01B7*/
792 	u_int32_t	reply_post_producer_index;                  /*01B8 01BB*/
793 	u_int32_t	reply_post_consumer_index;                  /*01BC 01BF*/
794 	u_int32_t	reserved2[1936];                            /*01C0 1FFF*/
795 	u_int32_t	message_wbuffer[32];                        /*2000 207F*/
796 	u_int32_t	reserved3[32];                              /*2080 20FF*/
797 	u_int32_t	message_rbuffer[32];                        /*2100 217F*/
798 	u_int32_t	reserved4[32];                              /*2180 21FF*/
799 	u_int32_t	msgcode_rwbuffer[256];                      /*2200 23FF*/
800 };
801 
802 /*
803 *********************************************************************
804 **      Messaging Unit (MU) of Type F processor(LSI)
805 *********************************************************************
806 */
807 struct HBF_MessageUnit {
808 	u_int32_t	iobound_doorbell;                           /*0000 0003*/
809 	u_int32_t	write_sequence_3xxx;	                    /*0004 0007*/
810 	u_int32_t	host_diagnostic_3xxx;	                    /*0008 000B*/
811 	u_int32_t	posted_outbound_doorbell;	            /*000C 000F*/
812 	u_int32_t	master_error_attribute;	                    /*0010 0013*/
813 	u_int32_t	master_error_address_low;	            /*0014 0017*/
814 	u_int32_t	master_error_address_high;	            /*0018 001B*/
815 	u_int32_t	hcb_size;                                   /*001C 001F*/
816 	u_int32_t	inbound_doorbell;	                    /*0020 0023*/
817 	u_int32_t	diagnostic_rw_data;	                    /*0024 0027*/
818 	u_int32_t	diagnostic_rw_address_low;	            /*0028 002B*/
819 	u_int32_t	diagnostic_rw_address_high;	            /*002C 002F*/
820 	u_int32_t	host_int_status;	                    /*0030 0033 host interrupt status*/
821 	u_int32_t	host_int_mask;     	                    /*0034 0037 host interrupt mask*/
822 	u_int32_t	dcr_data;	                            /*0038 003B*/
823 	u_int32_t	dcr_address;                                /*003C 003F*/
824 	u_int32_t	inbound_queueport;                          /*0040 0043 port32 host inbound queue port*/
825 	u_int32_t	outbound_queueport;                         /*0044 0047 port32 host outbound queue port*/
826 	u_int32_t	hcb_pci_address_low;                        /*0048 004B*/
827 	u_int32_t	hcb_pci_address_high;                       /*004C 004F*/
828 	u_int32_t	iop_int_status;                             /*0050 0053*/
829 	u_int32_t	iop_int_mask;                               /*0054 0057*/
830 	u_int32_t	iop_inbound_queue_port;                     /*0058 005B*/
831 	u_int32_t	iop_outbound_queue_port;                    /*005C 005F*/
832 	u_int32_t	inbound_free_list_index;                    /*0060 0063*/
833 	u_int32_t	inbound_post_list_index;                    /*0064 0067*/
834 	u_int32_t	reply_post_producer_index;                  /*0068 006B*/
835 	u_int32_t	reply_post_consumer_index;                  /*006C 006F*/
836 	u_int32_t	inbound_doorbell_clear;                     /*0070 0073*/
837 	u_int32_t	i2o_message_unit_control;                   /*0074 0077*/
838 	u_int32_t	last_used_message_source_address_low;       /*0078 007B*/
839 	u_int32_t	last_used_message_source_address_high;	    /*007C 007F*/
840 	u_int32_t	pull_mode_data_byte_count[4];               /*0080 008F*/
841 	u_int32_t	message_dest_address_index;                 /*0090 0093*/
842 	u_int32_t	done_queue_not_empty_int_counter_timer;     /*0094 0097*/
843 	u_int32_t	utility_A_int_counter_timer;                /*0098 009B*/
844 	u_int32_t	outbound_doorbell;                          /*009C 009F*/
845 	u_int32_t	outbound_doorbell_clear;                    /*00A0 00A3*/
846 	u_int32_t	message_source_address_index;               /*00A4 00A7*/
847 	u_int32_t	message_done_queue_index;                   /*00A8 00AB*/
848 	u_int32_t	reserved0;                                  /*00AC 00AF*/
849 	u_int32_t	inbound_msgaddr0;                           /*00B0 00B3 scratchpad0*/
850 	u_int32_t	inbound_msgaddr1;                           /*00B4 00B7 scratchpad1*/
851 	u_int32_t	outbound_msgaddr0;                          /*00B8 00BB scratchpad2*/
852 	u_int32_t	outbound_msgaddr1;                          /*00BC 00BF scratchpad3*/
853 	u_int32_t	inbound_queueport_low;                      /*00C0 00C3 port64 host inbound queue port low*/
854 	u_int32_t	inbound_queueport_high;                     /*00C4 00C7 port64 host inbound queue port high*/
855 	u_int32_t	outbound_queueport_low;                     /*00C8 00CB port64 host outbound queue port low*/
856 	u_int32_t	outbound_queueport_high;                    /*00CC 00CF port64 host outbound queue port high*/
857 	u_int32_t	iop_inbound_queue_port_low;                 /*00D0 00D3*/
858 	u_int32_t	iop_inbound_queue_port_high;                /*00D4 00D7*/
859 	u_int32_t	iop_outbound_queue_port_low;                /*00D8 00DB*/
860 	u_int32_t	iop_outbound_queue_port_high;               /*00DC 00DF*/
861 	u_int32_t	message_dest_queue_port_low;                /*00E0 00E3*/
862 	u_int32_t	message_dest_queue_port_high;               /*00E4 00E7*/
863 	u_int32_t	last_used_message_dest_address_low;         /*00E8 00EB*/
864 	u_int32_t	last_used_message_dest_address_high;        /*00EC 00EF*/
865 	u_int32_t	message_done_queue_base_address_low;        /*00F0 00F3*/
866 	u_int32_t	message_done_queue_base_address_high;       /*00F4 00F7*/
867 	u_int32_t	host_diagnostic;                            /*00F8 00FB*/
868 	u_int32_t	write_sequence;                             /*00FC 00FF*/
869 	u_int32_t	reserved1[46];                              /*0100 01B7*/
870 	u_int32_t	reply_post_producer_index1;                  /*01B8 01BB*/
871 	u_int32_t	reply_post_consumer_index1;                  /*01BC 01BF*/
872 };
873 
874 #define	MESG_RW_BUFFER_SIZE	(256 * 3)
875 
876 typedef struct deliver_completeQ {
877 	u_int16_t	cmdFlag;
878 	u_int16_t	cmdSMID;
879 	u_int16_t	cmdLMID;        // reserved (0)
880 	u_int16_t	cmdFlag2;       // reserved (0)
881 } DeliverQ, CompletionQ, *pDeliver_Q, *pCompletion_Q;
882 
883 #define	COMPLETION_Q_POOL_SIZE	(sizeof(struct deliver_completeQ) * 512 + 128)
884 
885 /*
886 *********************************************************************
887 **
888 *********************************************************************
889 */
890 struct MessageUnit_UNION
891 {
892 	union	{
893 		struct HBA_MessageUnit		hbamu;
894 		struct HBB_MessageUnit		hbbmu;
895         	struct HBC_MessageUnit		hbcmu;
896         	struct HBD_MessageUnit0		hbdmu;
897         	struct HBE_MessageUnit		hbemu;
898         	struct HBF_MessageUnit		hbfmu;
899 	} muu;
900 };
901 /*
902 *************************************************************
903 **   structure for holding DMA address data
904 *************************************************************
905 */
906 #define IS_SG64_ADDR	0x01000000 /* bit24 */
907 /*
908 ************************************************************************************************
909 **                            ARECA FIRMWARE SPEC
910 ************************************************************************************************
911 **		Usage of IOP331 adapter
912 **		(All In/Out is in IOP331's view)
913 **		1. Message 0 --> InitThread message and retrun code
914 **		2. Doorbell is used for RS-232 emulation
915 **			inDoorBell :    bit0 -- data in ready            (DRIVER DATA WRITE OK)
916 **					bit1 -- data out has been read   (DRIVER DATA READ OK)
917 **			outDooeBell:    bit0 -- data out ready           (IOP331 DATA WRITE OK)
918 **					bit1 -- data in has been read    (IOP331 DATA READ OK)
919 **		3. Index Memory Usage
920 **			offset 0xf00 : for RS232 out (request buffer)
921 **			offset 0xe00 : for RS232 in  (scratch buffer)
922 **			offset 0xa00 : for inbound message code msgcode_rwbuffer (driver send to IOP331)
923 **			offset 0xa00 : for outbound message code msgcode_rwbuffer (IOP331 send to driver)
924 **		4. RS-232 emulation
925 **			Currently 128 byte buffer is used
926 **			          1st u_int32_t : Data length (1--124)
927 **			        Byte 4--127 : Max 124 bytes of data
928 **		5. PostQ
929 **		All SCSI Command must be sent through postQ:
930 **		(inbound queue port)	Request frame must be 32 bytes aligned
931 **              	#   bit27--bit31 => flag for post ccb
932 **			#   bit0--bit26 => real address (bit27--bit31) of post arcmsr_cdb
933 **					bit31 : 0 : 256 bytes frame
934 **						1 : 512 bytes frame
935 **					bit30 : 0 : normal request
936 **						1 : BIOS request
937 **                                      bit29 : reserved
938 **                                      bit28 : reserved
939 **                                      bit27 : reserved
940 **  -------------------------------------------------------------------------------
941 **		(outbount queue port)	Request reply
942 **              	#   bit27--bit31 => flag for reply
943 **			#   bit0--bit26 => real address (bit27--bit31) of reply arcmsr_cdb
944 **			bit31 : must be 0 (for this type of reply)
945 **			bit30 : reserved for BIOS handshake
946 **			bit29 : reserved
947 **			bit28 : 0 : no error, ignore AdapStatus/DevStatus/SenseData
948 **				1 : Error, error code in AdapStatus/DevStatus/SenseData
949 **			bit27 : reserved
950 **		6. BIOS request
951 **			All BIOS request is the same with request from PostQ
952 **			Except :
953 **				Request frame is sent from configuration space
954 **					offset: 0x78 : Request Frame (bit30 == 1)
955 **					offset: 0x18 : writeonly to generate IRQ to IOP331
956 **				Completion of request:
957 **				        (bit30 == 0, bit28==err flag)
958 **		7. Definition of SGL entry (structure)
959 **		8. Message1 Out - Diag Status Code (????)
960 **		9. Message0 message code :
961 **			0x00 : NOP
962 **			0x01 : Get Config ->offset 0xa00 :for outbound message code msgcode_rwbuffer (IOP331 send to driver)
963 **					Signature             0x87974060(4)
964 **					Request len           0x00000200(4)
965 **					numbers of queue      0x00000100(4)
966 **					SDRAM Size            0x00000100(4)-->256 MB
967 **					IDE Channels          0x00000008(4)
968 **					vendor                40 bytes char
969 **					model                  8 bytes char
970 **					FirmVer               16 bytes char
971 **					Device Map            16 bytes char
972 **
973 **					FirmwareVersion DWORD <== Added for checking of new firmware capability
974 **			0x02 : Set Config ->offset 0xa00 : for inbound message code msgcode_rwbuffer (driver send to IOP331)
975 **					Signature             0x87974063(4)
976 **					UPPER32 of Request Frame  (4)-->Driver Only
977 **			0x03 : Reset (Abort all queued Command)
978 **			0x04 : Stop Background Activity
979 **			0x05 : Flush Cache
980 **			0x06 : Start Background Activity (re-start if background is halted)
981 **			0x07 : Check If Host Command Pending (Novell May Need This Function)
982 **			0x08 : Set controller time ->offset 0xa00 : for inbound message code msgcode_rwbuffer (driver to IOP331)
983 **					byte 0 : 0xaa <-- signature
984 **					byte 1 : 0x55 <-- signature
985 **					byte 2 : year (04)
986 **					byte 3 : month (1..12)
987 **					byte 4 : date (1..31)
988 **					byte 5 : hour (0..23)
989 **					byte 6 : minute (0..59)
990 **					byte 7 : second (0..59)
991 **      *********************************************************************************
992 **      Porting Of LSI2108/2116 Based PCIE SAS/6G host raid adapter
993 **      ==> Difference from IOP348
994 **      <1> Message Register 0,1 (the same usage) Init Thread message and retrun code
995 **           Inbound Message 0  (inbound_msgaddr0) : at offset 0xB0 (Scratchpad0) for inbound message code msgcode_rwbuffer (driver send to IOP)
996 **           Inbound Message 1  (inbound_msgaddr1) : at offset 0xB4 (Scratchpad1) Out.... Diag Status Code
997 **           Outbound Message 0 (outbound_msgaddr0): at offset 0xB8 (Scratchpad3) Out.... Diag Status Code
998 **           Outbound Message 1 (outbound_msgaddr1): at offset 0xBC (Scratchpad2) for outbound message code msgcode_rwbuffer (IOP send to driver)
999 **           <A> use doorbell to generate interrupt
1000 **
1001 **               inbound doorbell: bit3 --  inbound message 0 ready (driver to iop)
1002 **              outbound doorbell: bit3 -- outbound message 0 ready (iop to driver)
1003 **
1004 **		        a. Message1: Out - Diag Status Code (????)
1005 **
1006 **		        b. Message0: message code
1007 **		        	    0x00 : NOP
1008 **		        	    0x01 : Get Config ->offset 0xB8 :for outbound message code msgcode_rwbuffer (IOP send to driver)
1009 **		        	    			Signature             0x87974060(4)
1010 **		        	    			Request len           0x00000200(4)
1011 **		        	    			numbers of queue      0x00000100(4)
1012 **		        	    			SDRAM Size            0x00000100(4)-->256 MB
1013 **		        	    			IDE Channels          0x00000008(4)
1014 **		        	    			vendor                40 bytes char
1015 **		        	    			model                  8 bytes char
1016 **		        	    			FirmVer               16 bytes char
1017 **                                         Device Map            16 bytes char
1018 **                                         cfgVersion    ULONG <== Added for checking of new firmware capability
1019 **		        	    0x02 : Set Config ->offset 0xB0 :for inbound message code msgcode_rwbuffer (driver send to IOP)
1020 **		        	    			Signature             0x87974063(4)
1021 **		        	    			UPPER32 of Request Frame  (4)-->Driver Only
1022 **		        	    0x03 : Reset (Abort all queued Command)
1023 **		        	    0x04 : Stop Background Activity
1024 **		        	    0x05 : Flush Cache
1025 **		        	    0x06 : Start Background Activity (re-start if background is halted)
1026 **		        	    0x07 : Check If Host Command Pending (Novell May Need This Function)
1027 **		        	    0x08 : Set controller time ->offset 0xB0 : for inbound message code msgcode_rwbuffer (driver to IOP)
1028 **		        	            		byte 0 : 0xaa <-- signature
1029 **                                      		byte 1 : 0x55 <-- signature
1030 **		        	            		byte 2 : year (04)
1031 **		        	            		byte 3 : month (1..12)
1032 **		        	            		byte 4 : date (1..31)
1033 **		        	            		byte 5 : hour (0..23)
1034 **		        	            		byte 6 : minute (0..59)
1035 **		        	            		byte 7 : second (0..59)
1036 **
1037 **      <2> Doorbell Register is used for RS-232 emulation
1038 **           <A> different clear register
1039 **           <B> different bit0 definition (bit0 is reserved)
1040 **
1041 **           inbound doorbell        : at offset 0x20
1042 **           inbound doorbell clear  : at offset 0x70
1043 **
1044 **           inbound doorbell        : bit0 -- reserved
1045 **                                     bit1 -- data in ready             (DRIVER DATA WRITE OK)
1046 **                                     bit2 -- data out has been read    (DRIVER DATA READ OK)
1047 **                                     bit3 -- inbound message 0 ready
1048 **                                     bit4 -- more than 12 request completed in a time
1049 **
1050 **           outbound doorbell       : at offset 0x9C
1051 **           outbound doorbell clear : at offset 0xA0
1052 **
1053 **           outbound doorbell       : bit0 -- reserved
1054 **                                     bit1 -- data out ready            (IOP DATA WRITE OK)
1055 **                                     bit2 -- data in has been read     (IOP DATA READ OK)
1056 **                                     bit3 -- outbound message 0 ready
1057 **
1058 **      <3> Index Memory Usage (Buffer Area)
1059 **           COMPORT_IN     at  0x2000: message_wbuffer  --  128 bytes (to be sent to ROC) : for RS232 in  (scratch buffer)
1060 **           COMPORT_OUT    at  0x2100: message_rbuffer  --  128 bytes (to be sent to host): for RS232 out (request buffer)
1061 **           BIOS_CFG_AREA  at  0x2200: msgcode_rwbuffer -- 1024 bytes for outbound message code msgcode_rwbuffer (IOP send to driver)
1062 **           BIOS_CFG_AREA  at  0x2200: msgcode_rwbuffer -- 1024 bytes for  inbound message code msgcode_rwbuffer (driver send to IOP)
1063 **
1064 **      <4> PostQ (Command Post Address)
1065 **          All SCSI Command must be sent through postQ:
1066 **              inbound  queue port32 at offset 0x40 , 0x41, 0x42, 0x43
1067 **              inbound  queue port64 at offset 0xC0 (lower)/0xC4 (upper)
1068 **              outbound queue port32 at offset 0x44
1069 **              outbound queue port64 at offset 0xC8 (lower)/0xCC (upper)
1070 **              <A> For 32bit queue, access low part is enough to send/receive request
1071 **                  i.e. write 0x40/0xC0, ROC will get the request with high part == 0, the
1072 **                  same for outbound queue port
1073 **              <B> For 64bit queue, if 64bit instruction is supported, use 64bit instruction
1074 **                  to post inbound request in a single instruction, and use 64bit instruction
1075 **                  to retrieve outbound request in a single instruction.
1076 **                  If in 32bit environment, when sending inbound queue, write high part first
1077 **                  then write low part. For receiving outbound request, read high part first
1078 **                  then low part, to check queue empty, ONLY check high part to be 0xFFFFFFFF.
1079 **                  If high part is 0xFFFFFFFF, DO NOT read low part, this may corrupt the
1080 **                  consistency of the FIFO. Another way to check empty is to check status flag
1081 **                  at 0x30 bit3.
1082 **              <C> Post Address IS NOT shifted (must be 16 bytes aligned)
1083 **                  For   BIOS, 16bytes aligned   is OK
1084 **                  For Driver, 32bytes alignment is recommended.
1085 **                  POST Command bit0 to bit3 is defined differently
1086 **                  ----------------------------
1087 **                  bit0:1 for PULL mode (must be 1)
1088 **                  ----------------------------
1089 **                  bit3/2/1: for arcmsr cdb size (arccdbsize)
1090 **                      000: <= 0x0080 (128)
1091 **                      001: <= 0x0100 (256)
1092 **                      010: <= 0x0180 (384)
1093 **                      011: <= 0x0200 (512)
1094 **                      100: <= 0x0280 (640)
1095 **                      101: <= 0x0300 (768)
1096 **                      110: <= 0x0300 (reserved)
1097 **                      111: <= 0x0300 (reserved)
1098 **                  -----------------------------
1099 **                  if len > 0x300 the len always set as 0x300
1100 **                  -----------------------------
1101 **                  post addr = addr | ((len-1) >> 6) | 1
1102 **                  -----------------------------
1103 **                  page length in command buffer still required,
1104 **
1105 **                  if page length > 3,
1106 **                     firmware will assume more request data need to be retrieved
1107 **
1108 **              <D> Outbound Posting
1109 **                  bit0:0 , no error, 1 with error, refer to status buffer
1110 **                  bit1:0 , reserved (will be 0)
1111 **                  bit2:0 , reserved (will be 0)
1112 **                  bit3:0 , reserved (will be 0)
1113 **                  bit63-4: Completed command address
1114 **
1115 **              <E> BIOS support, no special support is required.
1116 **                  LSI2108 support I/O register
1117 **                  All driver functionality is supported through I/O address
1118 **
1119 ************************************************************************************************
1120 */
1121 /*
1122 **********************************
1123 **
1124 **********************************
1125 */
1126 /* size 8 bytes */
1127 /* 32bit Scatter-Gather list */
1128 struct SG32ENTRY {                 /* length bit 24 == 0 */
1129 	u_int32_t	length;    /* high 8 bit == flag,low 24 bit == length */
1130 	u_int32_t	address;
1131 };
1132 /* size 12 bytes */
1133 /* 64bit Scatter-Gather list */
1134 struct SG64ENTRY {                 /* length bit 24 == 1 */
1135   	u_int32_t       length;    /* high 8 bit == flag,low 24 bit == length */
1136    	u_int32_t       address;
1137    	u_int32_t       addresshigh;
1138 };
1139 struct SGENTRY_UNION {
1140 	union {
1141   		struct SG32ENTRY	sg32entry;   /* 30h   Scatter gather address  */
1142   		struct SG64ENTRY	sg64entry;   /* 30h */
1143 	}u;
1144 };
1145 /*
1146 **********************************
1147 **
1148 **********************************
1149 */
1150 struct QBUFFER {
1151 	u_int32_t     data_len;
1152 	u_int8_t      data[124];
1153 };
1154 /*
1155 **********************************
1156 */
1157 typedef struct PHYS_ADDR64 {
1158 	u_int32_t	phyadd_low;
1159 	u_int32_t	phyadd_high;
1160 }PHYSADDR64;
1161 /*
1162 ************************************************************************************************
1163 **      FIRMWARE INFO
1164 ************************************************************************************************
1165 */
1166 #define	ARCMSR_FW_MODEL_OFFSET		15
1167 #define	ARCMSR_FW_VERS_OFFSET		17
1168 #define	ARCMSR_FW_DEVMAP_OFFSET		21
1169 #define	ARCMSR_FW_CFGVER_OFFSET		25
1170 
1171 struct FIRMWARE_INFO {
1172 	u_int32_t      signature;           /*0,00-03*/
1173 	u_int32_t      request_len;         /*1,04-07*/
1174 	u_int32_t      numbers_queue;       /*2,08-11*/
1175 	u_int32_t      sdram_size;          /*3,12-15*/
1176 	u_int32_t      ide_channels;        /*4,16-19*/
1177 	char           vendor[40];          /*5,20-59*/
1178 	char           model[8];            /*15,60-67*/
1179 	char           firmware_ver[16];    /*17,68-83*/
1180 	char           device_map[16];      /*21,84-99*/
1181 	u_int32_t      cfgVersion;          /*25,100-103 Added for checking of new firmware capability*/
1182 	char           cfgSerial[16];       /*26,104-119*/
1183 	u_int32_t      cfgPicStatus;        /*30,120-123*/
1184 };
1185 /*   (A) For cfgVersion in FIRMWARE_INFO
1186 **        if low BYTE (byte#0) >= 3 (version 3)
1187 **        then byte#1 report the capability of the firmware can xfer in a single request
1188 **
1189 **        byte#1
1190 **        0         256K
1191 **        1         512K
1192 **        2         1M
1193 **        3         2M
1194 **        4         4M
1195 **        5         8M
1196 **        6         16M
1197 **    (B) Byte offset 7 (Reserved1) of CDB is changed to msgPages
1198 **        Driver support new xfer method need to set this field to indicate
1199 **        large CDB block in 0x100 unit (we use 0x100 byte as one page)
1200 **        e.g. If the length of CDB including MSG header and SGL is 0x1508
1201 **        driver need to set the msgPages to 0x16
1202 **    (C) REQ_LEN_512BYTE must be used also to indicate SRB length
1203 **        e.g. CDB len      msgPages    REQ_LEN_512BYTE flag
1204 **             <= 0x100     1               0
1205 **             <= 0x200     2               1
1206 **             <= 0x300     3               1
1207 **             <= 0x400     4               1
1208 **             .
1209 **             .
1210 */
1211 
1212 /*
1213 ************************************************************************************************
1214 **    size 0x1F8 (504)
1215 ************************************************************************************************
1216 */
1217 struct ARCMSR_CDB {
1218 	u_int8_t     	Bus;              /* 00h   should be 0            */
1219 	u_int8_t     	TargetID;         /* 01h   should be 0--15        */
1220 	u_int8_t     	LUN;              /* 02h   should be 0--7         */
1221 	u_int8_t     	Function;         /* 03h   should be 1            */
1222 
1223 	u_int8_t     	CdbLength;        /* 04h   not used now           */
1224 	u_int8_t     	sgcount;          /* 05h                          */
1225 	u_int8_t     	Flags;            /* 06h                          */
1226 	u_int8_t     	msgPages;         /* 07h                          */
1227 
1228 	u_int32_t    	Context;          /* 08h   Address of this request */
1229 	u_int32_t    	DataLength;       /* 0ch   not used now           */
1230 
1231 	u_int8_t     	Cdb[16];          /* 10h   SCSI CDB               */
1232 	/*
1233 	********************************************************
1234 	** Device Status : the same from SCSI bus if error occur
1235 	** SCSI bus status codes.
1236 	********************************************************
1237 	*/
1238 	u_int8_t     	DeviceStatus;     /* 20h   if error                */
1239 
1240 	u_int8_t     	SenseData[15];    /* 21h   output                  */
1241 
1242 	union {
1243 		struct SG32ENTRY	sg32entry[ARCMSR_MAX_SG_ENTRIES];        /* 30h   Scatter gather address  */
1244 		struct SG64ENTRY	sg64entry[ARCMSR_MAX_SG_ENTRIES];        /* 30h                           */
1245 	} u;
1246 };
1247 /* CDB flag */
1248 #define ARCMSR_CDB_FLAG_SGL_BSIZE		0x01	/* bit 0: 0(256) / 1(512) bytes         */
1249 #define ARCMSR_CDB_FLAG_BIOS			0x02	/* bit 1: 0(from driver) / 1(from BIOS) */
1250 #define ARCMSR_CDB_FLAG_WRITE			0x04	/* bit 2: 0(Data in) / 1(Data out)      */
1251 #define ARCMSR_CDB_FLAG_SIMPLEQ			0x00	/* bit 4/3 ,00 : simple Q,01 : head of Q,10 : ordered Q */
1252 #define ARCMSR_CDB_FLAG_HEADQ			0x08
1253 #define ARCMSR_CDB_FLAG_ORDEREDQ		0x10
1254 /* scsi status */
1255 #define SCSISTAT_GOOD                  		0x00
1256 #define SCSISTAT_CHECK_CONDITION       		0x02
1257 #define SCSISTAT_CONDITION_MET         		0x04
1258 #define SCSISTAT_BUSY                  		0x08
1259 #define SCSISTAT_INTERMEDIATE          		0x10
1260 #define SCSISTAT_INTERMEDIATE_COND_MET 		0x14
1261 #define SCSISTAT_RESERVATION_CONFLICT  		0x18
1262 #define SCSISTAT_COMMAND_TERMINATED    		0x22
1263 #define SCSISTAT_QUEUE_FULL            		0x28
1264 /* DeviceStatus */
1265 #define ARCMSR_DEV_SELECT_TIMEOUT		0xF0
1266 #define ARCMSR_DEV_ABORTED			0xF1
1267 #define ARCMSR_DEV_INIT_FAIL			0xF2
1268 /*
1269 *********************************************************************
1270 **                   Command Control Block (SrbExtension)
1271 ** SRB must be not cross page boundary,and the order from offset 0
1272 **         structure describing an ATA disk request
1273 **             this SRB length must be 32 bytes boundary
1274 *********************************************************************
1275 */
1276 struct CommandControlBlock {
1277 	struct ARCMSR_CDB	arcmsr_cdb;		/* 0  -503 (size of CDB=504): arcmsr messenger scsi command descriptor size 504 bytes */
1278 	u_int32_t		cdb_phyaddr_low;	/* 504-507 */
1279 	u_int32_t		arc_cdb_size;		/* 508-511 */
1280 	/*  ======================512+32 bytes============================  */
1281 	union ccb		*pccb;			/* 512-515 516-519 pointer of freebsd scsi command */
1282 	struct AdapterControlBlock	*acb;		/* 520-523 524-527 */
1283 	bus_dmamap_t		dm_segs_dmamap;		/* 528-531 532-535 */
1284 	u_int16_t   		srb_flags;		/* 536-537 */
1285 	u_int16_t		srb_state;              /* 538-539 */
1286 	u_int32_t		cdb_phyaddr_high;	/* 540-543 */
1287 	struct	callout		ccb_callout;
1288 	u_int32_t		smid;
1289     /*  ==========================================================  */
1290 };
1291 /*	srb_flags */
1292 #define		SRB_FLAG_READ			0x0000
1293 #define		SRB_FLAG_WRITE			0x0001
1294 #define		SRB_FLAG_ERROR			0x0002
1295 #define		SRB_FLAG_FLUSHCACHE		0x0004
1296 #define		SRB_FLAG_MASTER_ABORTED 	0x0008
1297 #define		SRB_FLAG_DMAVALID		0x0010
1298 #define		SRB_FLAG_DMACONSISTENT  	0x0020
1299 #define		SRB_FLAG_DMAWRITE		0x0040
1300 #define		SRB_FLAG_PKTBIND		0x0080
1301 #define		SRB_FLAG_TIMER_START		0x0080
1302 /*	srb_state */
1303 #define		ARCMSR_SRB_DONE   		0x0000
1304 #define		ARCMSR_SRB_UNBUILD 		0x0000
1305 #define		ARCMSR_SRB_TIMEOUT 		0x1111
1306 #define		ARCMSR_SRB_RETRY 		0x2222
1307 #define		ARCMSR_SRB_START   		0x55AA
1308 #define		ARCMSR_SRB_PENDING		0xAA55
1309 #define		ARCMSR_SRB_RESET		0xA5A5
1310 #define		ARCMSR_SRB_ABORTED		0x5A5A
1311 #define		ARCMSR_SRB_ILLEGAL		0xFFFF
1312 
1313 #define		SRB_SIZE	((sizeof(struct CommandControlBlock)+0x1f) & 0xffe0)
1314 #define 	ARCMSR_SRBS_POOL_SIZE   (SRB_SIZE * ARCMSR_MAX_FREESRB_NUM)
1315 
1316 /*
1317 *********************************************************************
1318 **                 Adapter Control Block
1319 *********************************************************************
1320 */
1321 #define ACB_ADAPTER_TYPE_A	0x00000000	/* hba I IOP */
1322 #define ACB_ADAPTER_TYPE_B	0x00000001	/* hbb M IOP */
1323 #define ACB_ADAPTER_TYPE_C	0x00000002	/* hbc L IOP */
1324 #define ACB_ADAPTER_TYPE_D	0x00000003	/* hbd M IOP */
1325 #define ACB_ADAPTER_TYPE_E	0x00000004	/* hbd L IOP */
1326 #define ACB_ADAPTER_TYPE_F	0x00000005	/* hbd L IOP */
1327 
1328 struct AdapterControlBlock {
1329 	u_int32_t		adapter_type;		/* adapter A,B..... */
1330 
1331 	bus_space_tag_t		btag[2];
1332 	bus_space_handle_t	bhandle[2];
1333 	bus_dma_tag_t		parent_dmat;
1334 	bus_dma_tag_t		dm_segs_dmat;		/* dmat for buffer I/O */
1335 	bus_dma_tag_t		srb_dmat;		/* dmat for freesrb */
1336 	bus_dmamap_t		srb_dmamap;
1337 	device_t		pci_dev;
1338 	struct cdev		*ioctl_dev;
1339 	int			pci_unit;
1340 
1341 	struct resource		*sys_res_arcmsr[2];
1342 	struct resource		*irqres[ARCMSR_NUM_MSIX_VECTORS];
1343 	void			*ih[ARCMSR_NUM_MSIX_VECTORS]; /* interrupt handle */
1344 	int			irq_id[ARCMSR_NUM_MSIX_VECTORS];
1345 
1346 	/* Hooks into the CAM XPT */
1347 	struct			cam_sim *psim;
1348 	struct			cam_path *ppath;
1349 	u_int8_t		*uncacheptr;
1350 	unsigned long		vir2phy_offset;
1351 	union	{
1352 		unsigned long	phyaddr;
1353 		struct {
1354 			u_int32_t	phyadd_low;
1355 			u_int32_t	phyadd_high;
1356 		}B;
1357 	}srb_phyaddr;
1358 //	unsigned long				srb_phyaddr;
1359 	/* Offset is used in making arc cdb physical to virtual calculations */
1360 	u_int32_t		outbound_int_enable;
1361 
1362 	struct MessageUnit_UNION	*pmu;		/* message unit ATU inbound base address0 */
1363 	uint32_t		*message_wbuffer;	//0x000 - COMPORT_IN  (to be sent to ROC)
1364 	uint32_t		*message_rbuffer;	//0x100 - COMPORT_OUT (to be sent to Host)
1365 	uint32_t		*msgcode_rwbuffer;	//0x200 - BIOS_AREA
1366 
1367 	u_int8_t		adapter_index;
1368 	u_int8_t		irq;
1369 	u_int16_t		acb_flags;
1370 
1371 	struct CommandControlBlock *psrb_pool[ARCMSR_MAX_FREESRB_NUM];     /* serial srb pointer array */
1372 	struct CommandControlBlock *srbworkingQ[ARCMSR_MAX_FREESRB_NUM];   /* working srb pointer array */
1373 	int32_t			workingsrb_doneindex;		/* done srb array index */
1374 	int32_t			workingsrb_startindex;		/* start srb array index  */
1375 	int32_t			srboutstandingcount;
1376 
1377 	u_int8_t		rqbuffer[ARCMSR_MAX_QBUFFER];	/* data collection buffer for read from 80331 */
1378 	u_int32_t		rqbuf_firstindex;		/* first of read buffer  */
1379 	u_int32_t		rqbuf_lastindex;		/* last of read buffer   */
1380 
1381 	u_int8_t		wqbuffer[ARCMSR_MAX_QBUFFER];	/* data collection buffer for write to 80331  */
1382 	u_int32_t		wqbuf_firstindex;		/* first of write buffer */
1383 	u_int32_t		wqbuf_lastindex;		/* last of write buffer  */
1384 
1385 	arcmsr_lock_t		isr_lock;
1386 	arcmsr_lock_t		srb_lock;
1387 	arcmsr_lock_t		postDone_lock;
1388 	arcmsr_lock_t		qbuffer_lock;
1389 
1390 	u_int8_t		devstate[ARCMSR_MAX_TARGETID][ARCMSR_MAX_TARGETLUN]; /* id0 ..... id15,lun0...lun7 */
1391 	u_int32_t		num_resets;
1392 	u_int32_t		num_aborts;
1393 	u_int32_t		firm_request_len;	/*1,04-07*/
1394 	u_int32_t		firm_numbers_queue;	/*2,08-11*/
1395 	u_int32_t		firm_sdram_size;	/*3,12-15*/
1396 	u_int32_t		firm_ide_channels;	/*4,16-19*/
1397 	u_int32_t		firm_cfg_version;
1398 	char			firm_model[12];		/*15,60-67*/
1399 	char			firm_version[20];	/*17,68-83*/
1400 	char			device_map[20];		/*21,84-99 */
1401 	struct	callout		devmap_callout;
1402 	u_int32_t		pktRequestCount;
1403 	u_int32_t		pktReturnCount;
1404 	u_int32_t		vendor_device_id;
1405 	u_int32_t		adapter_bus_speed;
1406 	u_int32_t		maxOutstanding;
1407 	u_int16_t		sub_device_id;
1408 	u_int32_t		doneq_index;
1409 	u_int32_t		in_doorbell;
1410 	u_int32_t		out_doorbell;
1411 	u_int32_t		completionQ_entry;
1412 	pCompletion_Q		pCompletionQ;
1413 	int			msix_vectors;
1414 	int			rid[2];
1415 	unsigned long		completeQ_phys;
1416 };/* HW_DEVICE_EXTENSION */
1417 /* acb_flags */
1418 #define ACB_F_SCSISTOPADAPTER           0x0001
1419 #define ACB_F_MSG_STOP_BGRB             0x0002		/* stop RAID background rebuild */
1420 #define ACB_F_MSG_START_BGRB            0x0004		/* stop RAID background rebuild */
1421 #define ACB_F_IOPDATA_OVERFLOW          0x0008		/* iop ioctl data rqbuffer overflow */
1422 #define ACB_F_MESSAGE_WQBUFFER_CLEARED  0x0010		/* ioctl clear wqbuffer */
1423 #define ACB_F_MESSAGE_RQBUFFER_CLEARED  0x0020		/* ioctl clear rqbuffer */
1424 #define ACB_F_MESSAGE_WQBUFFER_READ     0x0040
1425 #define ACB_F_BUS_RESET                 0x0080
1426 #define ACB_F_IOP_INITED                0x0100		/* iop init */
1427 #define ACB_F_MAPFREESRB_FAILD		0x0200		/* arcmsr_map_freesrb faild */
1428 #define ACB_F_CAM_DEV_QFRZN             0x0400
1429 #define ACB_F_BUS_HANG_ON               0x0800		/* need hardware reset bus */
1430 #define ACB_F_SRB_FUNCTION_POWER        0x1000
1431 #define	ACB_F_MSIX_ENABLED		0x2000
1432 /* devstate */
1433 #define ARECA_RAID_GONE         	0x55
1434 #define ARECA_RAID_GOOD         	0xaa
1435 /* adapter_bus_speed */
1436 #define	ACB_BUS_SPEED_3G	0
1437 #define	ACB_BUS_SPEED_6G	1
1438 #define	ACB_BUS_SPEED_12G	2
1439 /*
1440 *************************************************************
1441 *************************************************************
1442 */
1443 struct SENSE_DATA {
1444     u_int8_t 	ErrorCode:7;
1445     u_int8_t 	Valid:1;
1446     u_int8_t 	SegmentNumber;
1447     u_int8_t 	SenseKey:4;
1448     u_int8_t 	Reserved:1;
1449     u_int8_t 	IncorrectLength:1;
1450     u_int8_t 	EndOfMedia:1;
1451     u_int8_t 	FileMark:1;
1452     u_int8_t 	Information[4];
1453     u_int8_t 	AdditionalSenseLength;
1454     u_int8_t 	CommandSpecificInformation[4];
1455     u_int8_t 	AdditionalSenseCode;
1456     u_int8_t 	AdditionalSenseCodeQualifier;
1457     u_int8_t 	FieldReplaceableUnitCode;
1458     u_int8_t 	SenseKeySpecific[3];
1459 };
1460 /*
1461 **********************************
1462 **  Peripheral Device Type definitions
1463 **********************************
1464 */
1465 #define SCSI_DASD		0x00	   /* Direct-access Device	   */
1466 #define SCSI_SEQACESS		0x01	   /* Sequential-access device     */
1467 #define SCSI_PRINTER		0x02	   /* Printer device		   */
1468 #define SCSI_PROCESSOR		0x03	   /* Processor device		   */
1469 #define SCSI_WRITEONCE		0x04	   /* Write-once device 	   */
1470 #define SCSI_CDROM		0x05	   /* CD-ROM device		   */
1471 #define SCSI_SCANNER		0x06	   /* Scanner device		   */
1472 #define SCSI_OPTICAL		0x07	   /* Optical memory device	   */
1473 #define SCSI_MEDCHGR		0x08	   /* Medium changer device	   */
1474 #define SCSI_COMM		0x09	   /* Communications device	   */
1475 #define SCSI_NODEV		0x1F	   /* Unknown or no device type    */
1476 /*
1477 ************************************************************************************************************
1478 **				         @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
1479 **				                          80331 PCI-to-PCI Bridge
1480 **				                          PCI Configuration Space
1481 **
1482 **				         @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
1483 **				                            Programming Interface
1484 **				                          ========================
1485 **				            Configuration Register Address Space Groupings and Ranges
1486 **				         =============================================================
1487 **				                 Register Group                      Configuration  Offset
1488 **				         -------------------------------------------------------------
1489 **				            Standard PCI Configuration                      00-3Fh
1490 **				         -------------------------------------------------------------
1491 **				             Device Specific Registers                      40-A7h
1492 **				         -------------------------------------------------------------
1493 **				                   Reserved                                 A8-CBh
1494 **				         -------------------------------------------------------------
1495 **				              Enhanced Capability List                      CC-FFh
1496 ** ==========================================================================================================
1497 **                         Standard PCI [Type 1] Configuration Space Address Map
1498 ** **********************************************************************************************************
1499 ** |    Byte 3              |         Byte 2         |        Byte 1          |       Byte 0              |   Configu-ration Byte Offset
1500 ** ----------------------------------------------------------------------------------------------------------
1501 ** |                    Device ID                    |                     Vendor ID                      | 00h
1502 ** ----------------------------------------------------------------------------------------------------------
1503 ** |                 Primary Status                  |                  Primary Command                   | 04h
1504 ** ----------------------------------------------------------------------------------------------------------
1505 ** |                   Class Code                                             |        RevID              | 08h
1506 ** ----------------------------------------------------------------------------------------------------------
1507 ** |        reserved        |      Header Type       |      Primary MLT       |      Primary CLS          | 0Ch
1508 ** ----------------------------------------------------------------------------------------------------------
1509 ** |                                             Reserved                                                 | 10h
1510 ** ----------------------------------------------------------------------------------------------------------
1511 ** |                                             Reserved                                                 | 14h
1512 ** ----------------------------------------------------------------------------------------------------------
1513 ** |     Secondary MLT      | Subordinate Bus Number |  Secondary Bus Number  |     Primary Bus Number    | 18h
1514 ** ----------------------------------------------------------------------------------------------------------
1515 ** |                 Secondary Status                |       I/O Limit        |        I/O Base           | 1Ch
1516 ** ----------------------------------------------------------------------------------------------------------
1517 ** |      Non-prefetchable Memory Limit Address      |       Non-prefetchable Memory Base Address         | 20h
1518 ** ----------------------------------------------------------------------------------------------------------
1519 ** |        Prefetchable Memory Limit Address        |           Prefetchable Memory Base Address         | 24h
1520 ** ----------------------------------------------------------------------------------------------------------
1521 ** |                          Prefetchable Memory Base Address Upper 32 Bits                              | 28h
1522 ** ----------------------------------------------------------------------------------------------------------
1523 ** |                          Prefetchable Memory Limit Address Upper 32 Bits                             | 2Ch
1524 ** ----------------------------------------------------------------------------------------------------------
1525 ** |             I/O Limit Upper 16 Bits             |                 I/O Base Upper 16                  | 30h
1526 ** ----------------------------------------------------------------------------------------------------------
1527 ** |                                Reserved                                  |   Capabilities Pointer    | 34h
1528 ** ----------------------------------------------------------------------------------------------------------
1529 ** |                                             Reserved                                                 | 38h
1530 ** ----------------------------------------------------------------------------------------------------------
1531 ** |                   Bridge Control                |  Primary Interrupt Pin | Primary Interrupt Line    | 3Ch
1532 **=============================================================================================================
1533 */
1534 /*
1535 **=============================================================================================================
1536 **  0x03-0x00 :
1537 ** Bit       Default             Description
1538 **31:16       0335h            Device ID (DID): Indicates the unique device ID that is assigned to bridge by the PCI SIG.
1539 **                             ID is unique per product speed as indicated.
1540 **15:00       8086h            Vendor ID (VID): 16-bit field which indicates that Intel is the vendor.
1541 **=============================================================================================================
1542 */
1543 #define     ARCMSR_PCI2PCI_VENDORID_REG		         0x00    /*word*/
1544 #define     ARCMSR_PCI2PCI_DEVICEID_REG		         0x02    /*word*/
1545 /*
1546 **==============================================================================
1547 **  0x05-0x04 : command register
1548 ** Bit       Default 		               Description
1549 **15:11        00h		   		             Reserved
1550 ** 10          0		   		           Interrupt Disable: Disables/Enables the generation of Interrupts on the primary bus.
1551 **                		   		                              The bridge does not support interrupts.
1552 ** 09          0		   		                 FB2B Enable: Enables/Disables the generation of fast back to back
1553 **										transactions on the primary bus.
1554 **                		   		                              The bridge does not generate fast back to back
1555 **										transactions on the primary bus.
1556 ** 08          0		   		          SERR# Enable (SEE): Enables primary bus SERR# assertions.
1557 **                		   		                              0=The bridge does not assert P_SERR#.
1558 **                		   		                              1=The bridge may assert P_SERR#, subject to other programmable criteria.
1559 ** 07          0		   		    Wait Cycle Control (WCC): Always returns 0bzero indicating
1560 **										that bridge does not perform address or data stepping,
1561 ** 06          0		   		 Parity Error Response (PER): Controls bridge response to a detected primary bus parity error.
1562 **                		   		                              0=When a data parity error is detected bridge does not assert S_PERR#.
1563 **                		   		                                  Also bridge does not assert P_SERR# in response to
1564 **											a detected address or attribute parity error.
1565 **                		   		                              1=When a data parity error is detected bridge asserts S_PERR#.
1566 **                		   		                                  The bridge also asserts P_SERR#
1567 **											(when enabled globally via bit(8) of this register)
1568 **											in response to a detected address or attribute parity error.
1569 ** 05          0		  VGA Palette Snoop Enable (VGA_PSE): Controls bridge response to VGA-compatible palette write transactions.
1570 **                		                                      VGA palette write transactions are I/O transactions
1571 **										 whose address bits are: P_AD[9:0] equal to 3C6h, 3C8h or 3C9h
1572 **                		                                      P_AD[15:10] are not decoded (i.e. aliases are claimed),
1573 **										or are fully decoding
1574 **										(i.e., must be all 0's depending upon the VGA
1575 **										aliasing bit in the Bridge Control Register, offset 3Eh.
1576 **                		                                      P_AD[31:16] equal to 0000h
1577 **                		                                      0=The bridge ignores VGA palette write transactions,
1578 **										unless decoded by the standard I/O address range window.
1579 **                		                                      1=The bridge responds to VGA palette write transactions
1580 **										with medium DEVSEL# timing and forwards them to the secondary bus.
1581 ** 04          0   Memory Write and Invalidate Enable (MWIE): The bridge does not promote MW transactions to MWI transactions.
1582 **                                                            MWI transactions targeting resources on the opposite side of the bridge,
1583 **										however, are forwarded as MWI transactions.
1584 ** 03          0                  Special Cycle Enable (SCE): The bridge ignores special cycle transactions.
1585 **                                                            This bit is read only and always returns 0 when read
1586 ** 02          0                     Bus Master Enable (BME): Enables bridge to initiate memory and I/O transactions on the primary interface.
1587 **                                                            Initiation of configuration transactions is not affected by the state of this bit.
1588 **                                                            0=The bridge does not initiate memory or I/O transactions on the primary interface.
1589 **                                                            1=The bridge is enabled to function as an initiator on the primary interface.
1590 ** 01          0                   Memory Space Enable (MSE): Controls target response to memory transactions on the primary interface.
1591 **                                                            0=The bridge target response to memory transactions on the primary interface is disabled.
1592 **                                                            1=The bridge target response to memory transactions on the primary interface is enabled.
1593 ** 00          0                     I/O Space Enable (IOSE): Controls target response to I/O transactions on the primary interface.
1594 **                                                            0=The bridge target response to I/O transactions on the primary interface is disabled.
1595 **                                                            1=The bridge target response to I/O transactions on the primary interface is enabled.
1596 **==============================================================================
1597 */
1598 #define     ARCMSR_PCI2PCI_PRIMARY_COMMAND_REG		0x04    /*word*/
1599 #define     PCI_DISABLE_INTERRUPT					0x0400
1600 /*
1601 **==============================================================================
1602 **  0x07-0x06 : status register
1603 ** Bit       Default                       Description
1604 ** 15          0                       Detected Parity Error: The bridge sets this bit to a 1b whenever it detects an address,
1605 **									attribute or data parity error.
1606 **                                                            This bit is set regardless of the state of the PER bit in the command register.
1607 ** 14          0                       Signaled System Error: The bridge sets this bit to a 1b whenever it asserts SERR# on the primary bus.
1608 ** 13          0                       Received Master Abort: The bridge sets this bit to a 1b when,
1609 **									acting as the initiator on the primary bus,
1610 **									its transaction (with the exception of special cycles)
1611 **									has been terminated with a Master Abort.
1612 ** 12          0                       Received Target Abort: The bridge sets this bit to a 1b when,
1613 **									acting as the initiator on the primary bus,
1614 **									its transaction has been terminated with a Target Abort.
1615 ** 11          0                       Signaled Target Abort: The bridge sets this bit to a 1b when it,
1616 **									as the target of a transaction, terminates it with a Target Abort.
1617 **                                                            In PCI-X mode this bit is also set when it forwards a SCM with a target abort error code.
1618 ** 10:09       01                             DEVSEL# Timing: Indicates slowest response to a non-configuration command on the primary interface.
1619 **                                                            Returns ��01b�� when read, indicating that bridge responds no slower than with medium timing.
1620 ** 08          0                    Master Data Parity Error: The bridge sets this bit to a 1b when all of the following conditions are true:
1621 **									The bridge is the current master on the primary bus
1622 **                                                            S_PERR# is detected asserted or is asserted by bridge
1623 **                                                            The Parity Error Response bit is set in the Command register
1624 ** 07          1                   Fast Back to Back Capable: Returns a 1b when read indicating that bridge
1625 **									is able to respond to fast back to back transactions on its primary interface.
1626 ** 06          0                             Reserved
1627 ** 05          1                   66 MHz Capable Indication: Returns a 1b when read indicating that bridge primary interface is 66 MHz capable.
1628 **                                                            1 =
1629 ** 04          1                    Capabilities List Enable: Returns 1b when read indicating that bridge supports PCI standard enhanced capabilities.
1630 **                                                            Offset 34h (Capability Pointer register)
1631 **										provides the offset for the first entry
1632 **										in the linked list of enhanced capabilities.
1633 ** 03          0                            Interrupt Status: Reflects the state of the interrupt in the device/function.
1634 **                                                            The bridge does not support interrupts.
1635 ** 02:00       000                           Reserved
1636 **==============================================================================
1637 */
1638 #define     ARCMSR_PCI2PCI_PRIMARY_STATUS_REG	     0x06    /*word: 06,07 */
1639 #define          ARCMSR_ADAP_66MHZ                   0x20
1640 /*
1641 **==============================================================================
1642 **  0x08 : revision ID
1643 ** Bit       Default                       Description
1644 ** 07:00       00000000                  Revision ID (RID): '00h' indicating bridge A-0 stepping.
1645 **==============================================================================
1646 */
1647 #define     ARCMSR_PCI2PCI_REVISIONID_REG		     0x08    /*byte*/
1648 /*
1649 **==============================================================================
1650 **  0x0b-0x09 : 0180_00 (class code 1,native pci mode )
1651 ** Bit       Default                       Description
1652 ** 23:16       06h                     Base Class Code (BCC): Indicates that this is a bridge device.
1653 ** 15:08       04h                      Sub Class Code (SCC): Indicates this is of type PCI-to-PCI bridge.
1654 ** 07:00       00h               Programming Interface (PIF): Indicates that this is standard (non-subtractive) PCI-PCI bridge.
1655 **==============================================================================
1656 */
1657 #define     ARCMSR_PCI2PCI_CLASSCODE_REG	         0x09    /*3bytes*/
1658 /*
1659 **==============================================================================
1660 **  0x0c : cache line size
1661 ** Bit       Default                       Description
1662 ** 07:00       00h                     Cache Line Size (CLS): Designates the cache line size in 32-bit dword units.
1663 **                                                            The contents of this register are factored into
1664 **									internal policy decisions associated with memory read prefetching,
1665 **									and the promotion of Memory Write transactions to MWI transactions.
1666 **                                                            Valid cache line sizes are 8 and 16 dwords.
1667 **                                                            When the cache line size is set to an invalid value,
1668 **									bridge behaves as though the cache line size was set to 00h.
1669 **==============================================================================
1670 */
1671 #define     ARCMSR_PCI2PCI_PRIMARY_CACHELINESIZE_REG 0x0C    /*byte*/
1672 /*
1673 **==============================================================================
1674 **  0x0d : latency timer (number of pci clock 00-ff )
1675 ** Bit       Default                       Description
1676 **                                   Primary Latency Timer (PTV):
1677 ** 07:00      00h (Conventional PCI)   Conventional PCI Mode: Primary bus Master latency timer. Indicates the number of PCI clock cycles,
1678 **                                                            referenced from the assertion of FRAME# to the expiration of the timer,
1679 **                                                            when bridge may continue as master of the current transaction. All bits are writable,
1680 **                                                            resulting in a granularity of 1 PCI clock cycle.
1681 **                                                            When the timer expires (i.e., equals 00h)
1682 **									bridge relinquishes the bus after the first data transfer
1683 **									when its PCI bus grant has been deasserted.
1684 **         or 40h (PCI-X)                         PCI-X Mode: Primary bus Master latency timer.
1685 **                                                            Indicates the number of PCI clock cycles,
1686 **                                                            referenced from the assertion of FRAME# to the expiration of the timer,
1687 **                                                            when bridge may continue as master of the current transaction.
1688 **                                                            All bits are writable, resulting in a granularity of 1 PCI clock cycle.
1689 **                                                            When the timer expires (i.e., equals 00h) bridge relinquishes the bus at the next ADB.
1690 **                                                            (Except in the case where MLT expires within 3 data phases
1691 **								of an ADB.In this case bridge continues on
1692 **								until it reaches the next ADB before relinquishing the bus.)
1693 **==============================================================================
1694 */
1695 #define     ARCMSR_PCI2PCI_PRIMARY_LATENCYTIMER_REG	 0x0D    /*byte*/
1696 /*
1697 **==============================================================================
1698 **  0x0e : (header type,single function )
1699 ** Bit       Default                       Description
1700 ** 07           0                Multi-function device (MVD): 80331 is a single-function device.
1701 ** 06:00       01h                       Header Type (HTYPE): Defines the layout of addresses 10h through 3Fh in configuration space.
1702 **                                                            Returns ��01h�� when read indicating
1703 **								that the register layout conforms to the standard PCI-to-PCI bridge layout.
1704 **==============================================================================
1705 */
1706 #define     ARCMSR_PCI2PCI_HEADERTYPE_REG	         0x0E    /*byte*/
1707 /*
1708 **==============================================================================
1709 **     0x0f   :
1710 **==============================================================================
1711 */
1712 /*
1713 **==============================================================================
1714 **  0x13-0x10 :
1715 **  PCI CFG Base Address #0 (0x10)
1716 **==============================================================================
1717 */
1718 /*
1719 **==============================================================================
1720 **  0x17-0x14 :
1721 **  PCI CFG Base Address #1 (0x14)
1722 **==============================================================================
1723 */
1724 /*
1725 **==============================================================================
1726 **  0x1b-0x18 :
1727 **  PCI CFG Base Address #2 (0x18)
1728 **-----------------0x1A,0x19,0x18--Bus Number Register - BNR
1729 ** Bit       Default                       Description
1730 ** 23:16       00h             Subordinate Bus Number (SBBN): Indicates the highest PCI bus number below this bridge.
1731 **                                                            Any Type 1 configuration cycle
1732 **									on the primary bus whose bus number is greater than the secondary bus number,
1733 **                                                            and less than or equal to the subordinate bus number
1734 **									is forwarded unaltered as a Type 1 configuration cycle on the secondary PCI bus.
1735 ** 15:08       00h               Secondary Bus Number (SCBN): Indicates the bus number of PCI to which the secondary interface is connected.
1736 **                                                            Any Type 1 configuration cycle matching this bus number
1737 **									is translated to a Type 0 configuration cycle (or a Special Cycle)
1738 **									before being executed on bridge's secondary PCI bus.
1739 ** 07:00       00h                  Primary Bus Number (PBN): Indicates bridge primary bus number.
1740 **                                                            Any Type 1 configuration cycle on the primary interface
1741 **									with a bus number that is less than the contents
1742 **									of this register field does not be claimed by bridge.
1743 **-----------------0x1B--Secondary Latency Timer Register - SLTR
1744 ** Bit       Default                       Description
1745 **                             Secondary Latency Timer (STV):
1746 ** 07:00       00h (Conventional PCI)  Conventional PCI Mode: Secondary bus Master latency timer.
1747 **                                                            Indicates the number of PCI clock cycles,
1748 **									referenced from the assertion of FRAME# to the expiration of the timer,
1749 **                                                            when bridge may continue as master of the current transaction. All bits are writable,
1750 **                                                            resulting in a granularity of 1 PCI clock cycle.
1751 **                                                            When the timer expires (i.e., equals 00h)
1752 **								bridge relinquishes the bus after the first data transfer
1753 **								when its PCI bus grant has been deasserted.
1754 **          or 40h (PCI-X)                        PCI-X Mode: Secondary bus Master latency timer.
1755 **                                                            Indicates the number of PCI clock cycles,referenced from the assertion of FRAME#
1756 **								to the expiration of the timer,
1757 **                                                            when bridge may continue as master of the current transaction. All bits are writable,
1758 **                                                            resulting in a granularity of 1 PCI clock cycle.
1759 **                                                            When the timer expires (i.e., equals 00h) bridge relinquishes the bus at the next ADB.
1760 **                                                            (Except in the case where MLT expires within 3 data phases of an ADB.
1761 **								In this case bridge continues on until it reaches the next ADB
1762 **								before relinquishing the bus)
1763 **==============================================================================
1764 */
1765 #define     ARCMSR_PCI2PCI_PRIMARY_BUSNUMBER_REG	         0x18    /*3byte 0x1A,0x19,0x18*/
1766 #define     ARCMSR_PCI2PCI_SECONDARY_BUSNUMBER_REG	         0x19    /*byte*/
1767 #define     ARCMSR_PCI2PCI_SUBORDINATE_BUSNUMBER_REG             0x1A    /*byte*/
1768 #define     ARCMSR_PCI2PCI_SECONDARY_LATENCYTIMER_REG	         0x1B    /*byte*/
1769 /*
1770 **==============================================================================
1771 **  0x1f-0x1c :
1772 **  PCI CFG Base Address #3 (0x1C)
1773 **-----------------0x1D,0x1C--I/O Base and Limit Register - IOBL
1774 ** Bit       Default                       Description
1775 ** 15:12        0h            I/O Limit Address Bits [15:12]: Defines the top address of an address range to
1776 **								determine when to forward I/O transactions from one interface to the other.
1777 **                                                            These bits correspond to address lines 15:12 for 4KB alignment.
1778 **                                                            Bits 11:0 are assumed to be FFFh.
1779 ** 11:08        1h           I/O Limit Addressing Capability: This field is hard-wired to 1h, indicating support 32-bit I/O addressing.
1780 ** 07:04        0h             I/O Base Address Bits [15:12]: Defines the bottom address of
1781 **								an address range to determine when to forward I/O transactions
1782 **								from one interface to the other.
1783 **                                                            These bits correspond to address lines 15:12 for 4KB alignment.
1784 **								Bits 11:0 are assumed to be 000h.
1785 ** 03:00        1h            I/O Base Addressing Capability: This is hard-wired to 1h, indicating support for 32-bit I/O addressing.
1786 **-----------------0x1F,0x1E--Secondary Status Register - SSR
1787 ** Bit       Default                       Description
1788 ** 15           0b                     Detected Parity Error: The bridge sets this bit to a 1b whenever it detects an address,
1789 **								attribute or data parity error on its secondary interface.
1790 ** 14           0b                     Received System Error: The bridge sets this bit when it samples SERR# asserted on its secondary bus interface.
1791 ** 13           0b                     Received Master Abort: The bridge sets this bit to a 1b when,
1792 **								acting as the initiator on the secondary bus,
1793 **								it's transaction (with the exception of special cycles)
1794 **								has been terminated with a Master Abort.
1795 ** 12           0b                     Received Target Abort: The bridge sets this bit to a 1b when,
1796 **								acting as the initiator on the secondary bus,
1797 **								it's transaction has been terminated with a Target Abort.
1798 ** 11           0b                     Signaled Target Abort: The bridge sets this bit to a 1b when it,
1799 **								as the target of a transaction, terminates it with a Target Abort.
1800 **                                                            In PCI-X mode this bit is also set when it forwards a SCM with a target abort error code.
1801 ** 10:09       01b                            DEVSEL# Timing: Indicates slowest response to a non-configuration command on the secondary interface.
1802 **                                                            Returns ��01b�� when read, indicating that bridge responds no slower than with medium timing.
1803 ** 08           0b                  Master Data Parity Error: The bridge sets this bit to a 1b when all of the following conditions are true:
1804 **                                                            The bridge is the current master on the secondary bus
1805 **                                                            S_PERR# is detected asserted or is asserted by bridge
1806 **                                                            The Parity Error Response bit is set in the Command register
1807 ** 07           1b           Fast Back-to-Back Capable (FBC): Indicates that the secondary interface of bridge can receive fast back-to-back cycles.
1808 ** 06           0b                           Reserved
1809 ** 05           1b                      66 MHz Capable (C66): Indicates the secondary interface of the bridge is 66 MHz capable.
1810 **                                                            1 =
1811 ** 04:00       00h                           Reserved
1812 **==============================================================================
1813 */
1814 #define     ARCMSR_PCI2PCI_IO_BASE_REG	                     0x1C    /*byte*/
1815 #define     ARCMSR_PCI2PCI_IO_LIMIT_REG	                     0x1D    /*byte*/
1816 #define     ARCMSR_PCI2PCI_SECONDARY_STATUS_REG	             0x1E    /*word: 0x1F,0x1E */
1817 /*
1818 **==============================================================================
1819 **  0x23-0x20 :
1820 **  PCI CFG Base Address #4 (0x20)
1821 **-----------------0x23,0x22,0x21,0x20--Memory Base and Limit Register - MBL
1822 ** Bit       Default                       Description
1823 ** 31:20      000h                              Memory Limit: These 12 bits are compared with P_AD[31:20] of the incoming address to determine
1824 **                                                            the upper 1MB aligned value (exclusive) of the range.
1825 **                                                            The incoming address must be less than or equal to this value.
1826 **                                                            For the purposes of address decoding the lower 20 address bits (P_AD[19:0]
1827 **									are assumed to be F FFFFh.
1828 ** 19:16        0h                            Reserved.
1829 ** 15:04      000h                               Memory Base: These 12 bits are compared with bits P_AD[31:20]
1830 **								of the incoming address to determine the lower 1MB
1831 **								aligned value (inclusive) of the range.
1832 **                                                            The incoming address must be greater than or equal to this value.
1833 **                                                            For the purposes of address decoding the lower 20 address bits (P_AD[19:0])
1834 **								are assumed to be 0 0000h.
1835 ** 03:00        0h                            Reserved.
1836 **==============================================================================
1837 */
1838 #define     ARCMSR_PCI2PCI_NONPREFETCHABLE_MEMORY_BASE_REG   0x20    /*word: 0x21,0x20 */
1839 #define     ARCMSR_PCI2PCI_NONPREFETCHABLE_MEMORY_LIMIT_REG  0x22    /*word: 0x23,0x22 */
1840 /*
1841 **==============================================================================
1842 **  0x27-0x24 :
1843 **  PCI CFG Base Address #5 (0x24)
1844 **-----------------0x27,0x26,0x25,0x24--Prefetchable Memory Base and Limit Register - PMBL
1845 ** Bit       Default                       Description
1846 ** 31:20      000h                 Prefetchable Memory Limit: These 12 bits are compared with P_AD[31:20] of the incoming address to determine
1847 **                                                            the upper 1MB aligned value (exclusive) of the range.
1848 **                                                            The incoming address must be less than or equal to this value.
1849 **                                                            For the purposes of address decoding the lower 20 address bits (P_AD[19:0]
1850 **									are assumed to be F FFFFh.
1851 ** 19:16        1h                          64-bit Indicator: Indicates that 64-bit addressing is supported.
1852 ** 15:04      000h                  Prefetchable Memory Base: These 12 bits are compared with bits P_AD[31:20]
1853 **								of the incoming address to determine the lower 1MB aligned value (inclusive)
1854 **								of the range.
1855 **                                                            The incoming address must be greater than or equal to this value.
1856 **                                                            For the purposes of address decoding the lower 20 address bits (P_AD[19:0])
1857 **								 are assumed to be 0 0000h.
1858 ** 03:00        1h                          64-bit Indicator: Indicates that 64-bit addressing is supported.
1859 **==============================================================================
1860 */
1861 #define     ARCMSR_PCI2PCI_PREFETCHABLE_MEMORY_BASE_REG      0x24    /*word: 0x25,0x24 */
1862 #define     ARCMSR_PCI2PCI_PREFETCHABLE_MEMORY_LIMIT_REG     0x26    /*word: 0x27,0x26 */
1863 /*
1864 **==============================================================================
1865 **  0x2b-0x28 :
1866 ** Bit       Default                       Description
1867 ** 31:00    00000000h Prefetchable Memory Base Upper Portion: All bits are read/writable
1868 **                                                            bridge supports full 64-bit addressing.
1869 **==============================================================================
1870 */
1871 #define     ARCMSR_PCI2PCI_PREFETCHABLE_MEMORY_BASE_UPPER32_REG     0x28    /*dword: 0x2b,0x2a,0x29,0x28 */
1872 /*
1873 **==============================================================================
1874 **  0x2f-0x2c :
1875 ** Bit       Default                       Description
1876 ** 31:00    00000000h Prefetchable Memory Limit Upper Portion: All bits are read/writable
1877 **                                                             bridge supports full 64-bit addressing.
1878 **==============================================================================
1879 */
1880 #define     ARCMSR_PCI2PCI_PREFETCHABLE_MEMORY_LIMIT_UPPER32_REG    0x2C    /*dword: 0x2f,0x2e,0x2d,0x2c */
1881 /*
1882 **==============================================================================
1883 **  0x33-0x30 :
1884 ** Bit       Default                       Description
1885 ** 07:00       DCh                      Capabilities Pointer: Pointer to the first CAP ID entry in the capabilities list is at DCh in PCI configuration
1886 **                                                            space. (Power Management Capability Registers)
1887 **==============================================================================
1888 */
1889 #define     ARCMSR_PCI2PCI_CAPABILITIES_POINTER_REG	                 0x34    /*byte*/
1890 /*
1891 **==============================================================================
1892 **  0x3b-0x35 : reserved
1893 **==============================================================================
1894 */
1895 /*
1896 **==============================================================================
1897 **  0x3d-0x3c :
1898 **
1899 ** Bit       Default                       Description
1900 ** 15:08       00h                       Interrupt Pin (PIN): Bridges do not support the generation of interrupts.
1901 ** 07:00       00h                     Interrupt Line (LINE): The bridge does not generate interrupts, so this is reserved as '00h'.
1902 **==============================================================================
1903 */
1904 #define     ARCMSR_PCI2PCI_PRIMARY_INTERRUPT_LINE_REG                0x3C    /*byte*/
1905 #define     ARCMSR_PCI2PCI_PRIMARY_INTERRUPT_PIN_REG                 0x3D    /*byte*/
1906 /*
1907 **==============================================================================
1908 **  0x3f-0x3e :
1909 ** Bit       Default                       Description
1910 ** 15:12        0h                          Reserved
1911 ** 11           0b                Discard Timer SERR# Enable: Controls the generation of SERR# on the primary interface (P_SERR#) in response
1912 **                                                            to a timer discard on either the primary or secondary interface.
1913 **                                                            0b=SERR# is not asserted.
1914 **                                                            1b=SERR# is asserted.
1915 ** 10           0b                Discard Timer Status (DTS): This bit is set to a '1b' when either the primary or secondary discard timer expires.
1916 **                                                            The delayed completion is then discarded.
1917 ** 09           0b             Secondary Discard Timer (SDT): Sets the maximum number of PCI clock cycles
1918 **									that bridge waits for an initiator on the secondary bus
1919 **									to repeat a delayed transaction request.
1920 **                                                            The counter starts when the delayed transaction completion is ready
1921 **									to be returned to the initiator.
1922 **                                                            When the initiator has not repeated the transaction
1923 **									at least once before the counter expires,bridge
1924 **										discards the delayed transaction from its queues.
1925 **                                                            0b=The secondary master time-out counter is 2 15 PCI clock cycles.
1926 **                                                            1b=The secondary master time-out counter is 2 10 PCI clock cycles.
1927 ** 08           0b               Primary Discard Timer (PDT): Sets the maximum number of PCI clock cycles
1928 **									that bridge waits for an initiator on the primary bus
1929 **									to repeat a delayed transaction request.
1930 **                                                            The counter starts when the delayed transaction completion
1931 **									is ready to be returned to the initiator.
1932 **                                                            When the initiator has not repeated the transaction
1933 **									at least once before the counter expires,
1934 **									bridge discards the delayed transaction from its queues.
1935 **                                                            0b=The primary master time-out counter is 2 15 PCI clock cycles.
1936 **                                                            1b=The primary master time-out counter is 2 10 PCI clock cycles.
1937 ** 07           0b            Fast Back-to-Back Enable (FBE): The bridge does not initiate back to back transactions.
1938 ** 06           0b                 Secondary Bus Reset (SBR):
1939 **                                                            When cleared to 0b: The bridge deasserts S_RST#,
1940 **									when it had been asserted by writing this bit to a 1b.
1941 **                                                                When set to 1b: The bridge asserts S_RST#.
1942 ** 05           0b                   Master Abort Mode (MAM): Dictates bridge behavior on the initiator bus
1943 **									when a master abort termination occurs in response to
1944 **										a delayed transaction initiated by bridge on the target bus.
1945 **                                                            0b=The bridge asserts TRDY# in response to a non-locked delayed transaction,
1946 **										and returns FFFF FFFFh when a read.
1947 **                                                            1b=When the transaction had not yet been completed on the initiator bus
1948 **										(e.g.,delayed reads, or non-posted writes),
1949 **                                                                 then bridge returns a Target Abort in response to the original requester
1950 **                                                                 when it returns looking for its delayed completion on the initiator bus.
1951 **                                                                 When the transaction had completed on the initiator bus (e.g., a PMW),
1952 **										then bridge asserts P_SERR# (when enabled).
1953 **                                   For PCI-X transactions this bit is an enable for the assertion of P_SERR# due to a master abort
1954 **								while attempting to deliver a posted memory write on the destination bus.
1955 ** 04           0b                   VGA Alias Filter Enable: This bit dictates bridge behavior in conjunction with the VGA enable bit
1956 **								(also of this register),
1957 **                                                            and the VGA Palette Snoop Enable bit (Command Register).
1958 **                                                            When the VGA enable, or VGA Palette Snoop enable bits are on (i.e., 1b)
1959 **									the VGA Aliasing bit for the corresponding enabled functionality,:
1960 **                                                            0b=Ignores address bits AD[15:10] when decoding VGA I/O addresses.
1961 **                                                            1b=Ensures that address bits AD[15:10] equal 000000b when decoding VGA I/O addresses.
1962 **                                   When all VGA cycle forwarding is disabled, (i.e., VGA Enable bit =0b and VGA Palette Snoop bit =0b),
1963 **									then this bit has no impact on bridge behavior.
1964 ** 03           0b                                VGA Enable: Setting this bit enables address decoding
1965 **								 and transaction forwarding of the following VGA transactions from the primary bus
1966 **									to the secondary bus:
1967 **                                                            frame buffer memory addresses 000A0000h:000BFFFFh,
1968 **									VGA I/O addresses 3B0:3BBh and 3C0h:3DFh, where AD[31:16]=��0000h?**									?and AD[15:10] are either not decoded (i.e., don't cares),
1969 **										 or must be ��000000b��
1970 **                                                            depending upon the state of the VGA Alias Filter Enable bit. (bit(4) of this register)
1971 **                                                            I/O and Memory Enable bits must be set in the Command register
1972 **										to enable forwarding of VGA cycles.
1973 ** 02           0b                                ISA Enable: Setting this bit enables special handling
1974 **								for the forwarding of ISA I/O transactions that fall within the address range
1975 **									specified by the I/O Base and Limit registers,
1976 **										and are within the lowest 64Kbyte of the I/O address map
1977 **											(i.e., 0000 0000h - 0000 FFFFh).
1978 **                                                            0b=All I/O transactions that fall within the I/O Base
1979 **										and Limit registers' specified range are forwarded
1980 **											from primary to secondary unfiltered.
1981 **                                                            1b=Blocks the forwarding from primary to secondary
1982 **											of the top 768 bytes of each 1Kbyte alias.
1983 **												On the secondary the top 768 bytes of each 1K alias
1984 **													are inversely decoded and forwarded
1985 **														from secondary to primary.
1986 ** 01           0b                      SERR# Forward Enable: 0b=The bridge does not assert P_SERR# as a result of an S_SERR# assertion.
1987 **                                                            1b=The bridge asserts P_SERR# whenever S_SERR# is detected
1988 **									asserted provided the SERR# Enable bit is set (PCI Command Register bit(8)=1b).
1989 ** 00           0b                     Parity Error Response: This bit controls bridge response to a parity error
1990 **										that is detected on its secondary interface.
1991 **                                                            0b=When a data parity error is detected bridge does not assert S_PERR#.
1992 **                                                            Also bridge does not assert P_SERR# in response to a detected address
1993 **										or attribute parity error.
1994 **                                                            1b=When a data parity error is detected bridge asserts S_PERR#.
1995 **										The bridge also asserts P_SERR# (when enabled globally via bit(8)
1996 **											of the Command register)
1997 **                                                            in response to a detected address or attribute parity error.
1998 **==============================================================================
1999 */
2000 #define     ARCMSR_PCI2PCI_BRIDGE_CONTROL_REG	                     0x3E    /*word*/
2001 /*
2002 **************************************************************************
2003 **                  Device Specific Registers 40-A7h
2004 **************************************************************************
2005 ** ----------------------------------------------------------------------------------------------------------
2006 ** |    Byte 3              |         Byte 2         |        Byte 1          |       Byte 0              | Configu-ration Byte Offset
2007 ** ----------------------------------------------------------------------------------------------------------
2008 ** |    Bridge Control 0    |             Arbiter Control/Status              |      Reserved             | 40h
2009 ** ----------------------------------------------------------------------------------------------------------
2010 ** |                 Bridge Control 2                |                 Bridge Control 1                   | 44h
2011 ** ----------------------------------------------------------------------------------------------------------
2012 ** |                    Reserved                     |                 Bridge Status                      | 48h
2013 ** ----------------------------------------------------------------------------------------------------------
2014 ** |                                             Reserved                                                 | 4Ch
2015 ** ----------------------------------------------------------------------------------------------------------
2016 ** |                 Prefetch Policy                 |               Multi-Transaction Timer              | 50h
2017 ** ----------------------------------------------------------------------------------------------------------
2018 ** |       Reserved         |      Pre-boot Status   |             P_SERR# Assertion Control              | 54h
2019 ** ----------------------------------------------------------------------------------------------------------
2020 ** |       Reserved         |        Reserved        |             Secondary Decode Enable                | 58h
2021 ** ----------------------------------------------------------------------------------------------------------
2022 ** |                    Reserved                     |                 Secondary IDSEL                    | 5Ch
2023 ** ----------------------------------------------------------------------------------------------------------
2024 ** |                                              Reserved                                                | 5Ch
2025 ** ----------------------------------------------------------------------------------------------------------
2026 ** |                                              Reserved                                                | 68h:CBh
2027 ** ----------------------------------------------------------------------------------------------------------
2028 **************************************************************************
2029 **==============================================================================
2030 **  0x42-0x41: Secondary Arbiter Control/Status Register - SACSR
2031 ** Bit       Default                       Description
2032 ** 15:12      1111b                  Grant Time-out Violator: This field indicates the agent that violated the Grant Time-out rule
2033 **							(PCI=16 clocks,PCI-X=6 clocks).
2034 **                                   Note that this field is only meaningful when:
2035 **                                                              # Bit[11] of this register is set to 1b,
2036 **									indicating that a Grant Time-out violation had occurred.
2037 **                                                              # bridge internal arbiter is enabled.
2038 **                                           Bits[15:12] Violating Agent (REQ#/GNT# pair number)
2039 **                                                 0000b REQ#/GNT#[0]
2040 **                                                 0001b REQ#/GNT#[1]
2041 **                                                 0010b REQ#/GNT#[2]
2042 **                                                 0011b REQ#/GNT#[3]
2043 **                                                 1111b Default Value (no violation detected)
2044 **                                   When bit[11] is cleared by software, this field reverts back to its default value.
2045 **                                   All other values are Reserved
2046 ** 11            0b                  Grant Time-out Occurred: When set to 1b,
2047 **                                   this indicates that a Grant Time-out error had occurred involving one of the secondary bus agents.
2048 **                                   Software clears this bit by writing a 1b to it.
2049 ** 10            0b                      Bus Parking Control: 0=During bus idle, bridge parks the bus on the last master to use the bus.
2050 **                                                            1=During bus idle, bridge parks the bus on itself.
2051 **									The bus grant is removed from the last master and internally asserted to bridge.
2052 ** 09:08        00b                          Reserved
2053 ** 07:00      0000 0000b  Secondary Bus Arbiter Priority Configuration: The bridge secondary arbiter provides two rings of arbitration priority.
2054 **                                                                      Each bit of this field assigns its corresponding secondary
2055 **										bus master to either the high priority arbiter ring (1b)
2056 **											or to the low priority arbiter ring (0b).
2057 **                                                                      Bits [3:0] correspond to request inputs S_REQ#[3:0], respectively.
2058 **                                                                      Bit [6] corresponds to the bridge internal secondary bus request
2059 **										while Bit [7] corresponds to the SATU secondary bus request.
2060 **                                                                      Bits [5:4] are unused.
2061 **                                                                      0b=Indicates that the master belongs to the low priority group.
2062 **                                                                      1b=Indicates that the master belongs to the high priority group
2063 **=================================================================================
2064 **  0x43: Bridge Control Register 0 - BCR0
2065 ** Bit       Default                       Description
2066 ** 07           0b                  Fully Dynamic Queue Mode: 0=The number of Posted write transactions is limited to eight
2067 **									and the Posted Write data is limited to 4KB.
2068 **                                                            1=Operation in fully dynamic queue mode. The bridge enqueues up to
2069 **									14 Posted Memory Write transactions and 8KB of posted write data.
2070 ** 06:03        0H                          Reserved.
2071 ** 02           0b                 Upstream Prefetch Disable: This bit disables bridge ability
2072 **									to perform upstream prefetch operations for Memory
2073 **										Read requests received on its secondary interface.
2074 **                                 This bit also controls the bridge's ability to generate advanced read commands
2075 **								when forwarding a Memory Read Block transaction request upstream from a PCI-X bus
2076 **										to a Conventional PCI bus.
2077 **                                 0b=bridge treats all upstream Memory Read requests as though they target prefetchable memory.
2078 **										The use of Memory Read Line and Memory Read
2079 **                                      Multiple is enabled when forwarding a PCI-X Memory Read Block request
2080 **										to an upstream bus operating in Conventional PCI mode.
2081 **                                 1b=bridge treats upstream PCI Memory Read requests as though
2082 **									they target non-prefetchable memory and forwards upstream PCI-X Memory
2083 **											Read Block commands as Memory Read
2084 **												when the primary bus is operating
2085 **													in Conventional PCI mode.
2086 **                                 NOTE: This bit does not affect bridge ability to perform read prefetching
2087 **									when the received command is Memory Read Line or Memory Read Multiple.
2088 **=================================================================================
2089 **  0x45-0x44: Bridge Control Register 1 - BCR1 (Sheet 2 of 2)
2090 ** Bit       Default                       Description
2091 ** 15:08    0000000b                         Reserved
2092 ** 07:06         00b                   Alias Command Mapping: This two bit field determines how bridge handles PCI-X ��Alias�� commands,
2093 **								specifically the Alias to Memory Read Block and Alias to Memory Write Block commands.
2094 **                                                            The three options for handling these alias commands are to either pass it as is,
2095 **									re-map to the actual block memory read/write command encoding, or ignore
2096 **                                                            			the transaction forcing a Master Abort to occur on the Origination Bus.
2097 **                                                   Bit (7:6) Handling of command
2098 **                                                        0 0 Re-map to Memory Read/Write Block before forwarding
2099 **                                                        0 1 Enqueue and forward the alias command code unaltered
2100 **                                                        1 0 Ignore the transaction, forcing Master Abort
2101 **                                                        1 1 Reserved
2102 ** 05            1b                  Watchdog Timers Disable: Disables or enables all 2 24 Watchdog Timers in both directions.
2103 **                                                            The watchdog timers are used to detect prohibitively long latencies in the system.
2104 **                                                            The watchdog timer expires when any Posted Memory Write (PMW), Delayed Request,
2105 **                                                            or Split Requests (PCI-X mode) is not completed within 2 24 events
2106 **                                                            (��events�� are defined as PCI Clocks when operating in PCI-X mode,
2107 **								and as the number of times being retried when operating in Conventional PCI mode)
2108 **                                                            0b=All 2 24 watchdog timers are enabled.
2109 **                                                            1b=All 2 24 watchdog timers are disabled and there is no limits to
2110 **									the number of attempts bridge makes when initiating a PMW,
2111 **                                                                 transacting a Delayed Transaction, or how long it waits for
2112 **									a split completion corresponding to one of its requests.
2113 ** 04            0b                  GRANT# time-out disable: This bit enables/disables the GNT# time-out mechanism.
2114 **                                                            Grant time-out is 16 clocks for conventional PCI, and 6 clocks for PCI-X.
2115 **                                                            0b=The Secondary bus arbiter times out an agent
2116 **									that does not assert FRAME# within 16/6 clocks of receiving its grant,
2117 **										once the bus has gone idle.
2118 **                                                                 The time-out counter begins as soon as the bus goes idle with the new GNT# asserted.
2119 **                                                                 An infringing agent does not receive a subsequent GNT#
2120 **									until it de-asserts its REQ# for at least one clock cycle.
2121 **                                                            1b=GNT# time-out mechanism is disabled.
2122 ** 03           00b                           Reserved.
2123 ** 02            0b          Secondary Discard Timer Disable: This bit enables/disables bridge secondary delayed transaction discard mechanism.
2124 **                                                            The time out mechanism is used to ensure that initiators
2125 **									of delayed transactions return for their delayed completion data/status
2126 **										within a reasonable amount of time after it is available from bridge.
2127 **                                                            0b=The secondary master time-out counter is enabled
2128 **										and uses the value specified by the Secondary Discard Timer bit
2129 **											(see Bridge Control Register).
2130 **                                                            1b=The secondary master time-out counter is disabled.
2131 **											The bridge waits indefinitely for a secondary bus master
2132 **												to repeat a delayed transaction.
2133 ** 01            0b            Primary Discard Timer Disable: This bit enables/disables bridge primary delayed transaction discard mechanism.
2134 **								The time out mechanism is used to ensure that initiators
2135 **									of delayed transactions return for their delayed completion data/status
2136 **										within a reasonable amount of time after it is available from bridge.
2137 **                                                            0b=The primary master time-out counter is enabled and uses the value specified
2138 **									by the Primary Discard Timer bit (see Bridge Control Register).
2139 **                                                            1b=The secondary master time-out counter is disabled.
2140 **									The bridge waits indefinitely for a secondary bus master
2141 **										to repeat a delayed transaction.
2142 ** 00            0b                           Reserved
2143 **=================================================================================
2144 **  0x47-0x46: Bridge Control Register 2 - BCR2
2145 ** Bit       Default                       Description
2146 ** 15:07      0000b                          Reserved.
2147 ** 06            0b Global Clock Out Disable (External Secondary Bus Clock Source Enable):
2148 **									This bit disables all of the secondary PCI clock outputs including
2149 **										the feedback clock S_CLKOUT.
2150 **                                                            This means that the user is required to provide an S_CLKIN input source.
2151 ** 05:04        11 (66 MHz)                  Preserved.
2152 **              01 (100 MHz)
2153 **              00 (133 MHz)
2154 ** 03:00        Fh (100 MHz & 66 MHz)
2155 **              7h (133 MHz)
2156 **                                        This 4 bit field provides individual enable/disable mask bits for each of bridge
2157 **                                        secondary PCI clock outputs. Some, or all secondary clock outputs (S_CLKO[3:0])
2158 **                                        default to being enabled following the rising edge of P_RST#, depending on the
2159 **                                        frequency of the secondary bus clock:
2160 **                                               �E Designs with 100 MHz (or lower) Secondary PCI clock power up with
2161 **								all four S_CLKOs enabled by default. (SCLKO[3:0])�P
2162 **                                               �E Designs with 133 MHz Secondary PCI clock power up
2163 **								with the lower order 3 S_CLKOs enabled by default.
2164 **								(S_CLKO[2:0]) Only those SCLKs that power up enabled by can be connected
2165 **								to downstream device clock inputs.
2166 **=================================================================================
2167 **  0x49-0x48: Bridge Status Register - BSR
2168 ** Bit       Default                       Description
2169 ** 15           0b  Upstream Delayed Transaction Discard Timer Expired: This bit is set to a 1b and P_SERR#
2170 **									is conditionally asserted when the secondary discard timer expires.
2171 ** 14           0b  Upstream Delayed/Split Read Watchdog Timer Expired:
2172 **                                                     Conventional PCI Mode: This bit is set to a 1b and P_SERR#
2173 **									is conditionally asserted when bridge discards an upstream delayed read **	**									transaction request after 2 24 retries following the initial retry.
2174 **                                                                PCI-X Mode: This bit is set to a 1b and P_SERR# is conditionally asserted
2175 **									when bridge discards an upstream split read request
2176 **									after waiting in excess of 2 24 clocks for the corresponding
2177 **									Split Completion to arrive.
2178 ** 13           0b Upstream Delayed/Split Write Watchdog Timer Expired:
2179 **                                                     Conventional PCI Mode: This bit is set to a 1b and P_SERR#
2180 **									is conditionally asserted when bridge discards an upstream delayed write **	**									transaction request after 2 24 retries following the initial retry.
2181 **                                                                PCI-X Mode: This bit is set to a 1b and P_SERR#
2182 **									is conditionally asserted when bridge discards an upstream split write request **									after waiting in excess of 2 24 clocks for the corresponding
2183 **									Split Completion to arrive.
2184 ** 12           0b           Master Abort during Upstream Posted Write: This bit is set to a 1b and P_SERR#
2185 **									is conditionally asserted when a Master Abort occurs as a result of an attempt,
2186 **									by bridge, to retire a PMW upstream.
2187 ** 11           0b           Target Abort during Upstream Posted Write: This bit is set to a 1b and P_SERR#
2188 **									is conditionally asserted when a Target Abort occurs as a result of an attempt,
2189 **									by bridge, to retire a PMW upstream.
2190 ** 10           0b                Upstream Posted Write Data Discarded: This bit is set to a 1b and P_SERR#
2191 **									is conditionally asserted when bridge discards an upstream PMW transaction
2192 **									after receiving 2 24 target retries from the primary bus target
2193 ** 09           0b             Upstream Posted Write Data Parity Error: This bit is set to a 1b and P_SERR#
2194 **									is conditionally asserted when a data parity error is detected by bridge
2195 **									while attempting to retire a PMW upstream
2196 ** 08           0b                  Secondary Bus Address Parity Error: This bit is set to a 1b and P_SERR#
2197 **									is conditionally asserted when bridge detects an address parity error on
2198 **									the secondary bus.
2199 ** 07           0b Downstream Delayed Transaction Discard Timer Expired: This bit is set to a 1b and P_SERR#
2200 **									is conditionally asserted when the primary bus discard timer expires.
2201 ** 06           0b Downstream Delayed/Split Read Watchdog Timer Expired:
2202 **                                                     Conventional PCI Mode: This bit is set to a 1b and P_SERR#
2203 **									is conditionally asserted when bridge discards a downstream delayed read **	**										transaction request after receiving 2 24 target retries
2204 **											 from the secondary bus target.
2205 **                                                                PCI-X Mode: This bit is set to a 1b and P_SERR# is conditionally asserted
2206 **										when bridge discards a downstream split read request
2207 **											after waiting in excess of 2 24 clocks for the corresponding
2208 **												Split Completion to arrive.
2209 ** 05           0b Downstream Delayed Write/Split Watchdog Timer Expired:
2210 **                                                     Conventional PCI Mode: This bit is set to a 1b and P_SERR# is conditionally asserted
2211 **									when bridge discards a downstream delayed write transaction request
2212 **										after receiving 2 24 target retries from the secondary bus target.
2213 **                                                                PCI-X Mode: This bit is set to a 1b and P_SERR#
2214 **									is conditionally asserted when bridge discards a downstream
2215 **										split write request after waiting in excess of 2 24 clocks
2216 **											for the corresponding Split Completion to arrive.
2217 ** 04           0b          Master Abort during Downstream Posted Write: This bit is set to a 1b and P_SERR#
2218 **									is conditionally asserted when a Master Abort occurs as a result of an attempt,
2219 **										by bridge, to retire a PMW downstream.
2220 ** 03           0b          Target Abort during Downstream Posted Write: This bit is set to a 1b and P_SERR# is conditionally asserted
2221 **										when a Target Abort occurs as a result of an attempt, by bridge,
2222 **											to retire a PMW downstream.
2223 ** 02           0b               Downstream Posted Write Data Discarded: This bit is set to a 1b and P_SERR#
2224 **									is conditionally asserted when bridge discards a downstream PMW transaction
2225 **										after receiving 2 24 target retries from the secondary bus target
2226 ** 01           0b            Downstream Posted Write Data Parity Error: This bit is set to a 1b and P_SERR#
2227 **									is conditionally asserted when a data parity error is detected by bridge
2228 **										while attempting to retire a PMW downstream.
2229 ** 00           0b                     Primary Bus Address Parity Error: This bit is set to a 1b and P_SERR# is conditionally asserted
2230 **										when bridge detects an address parity error on the primary bus.
2231 **==================================================================================
2232 **  0x51-0x50: Bridge Multi-Transaction Timer Register - BMTTR
2233 ** Bit       Default                       Description
2234 ** 15:13       000b                          Reserved
2235 ** 12:10       000b                          GRANT# Duration: This field specifies the count (PCI clocks)
2236 **							that a secondary bus master has its grant maintained in order to enable
2237 **								multiple transactions to execute within the same arbitration cycle.
2238 **                                                    Bit[02:00] GNT# Extended Duration
2239 **                                                               000 MTT Disabled (Default=no GNT# extension)
2240 **                                                               001 16 clocks
2241 **                                                               010 32 clocks
2242 **                                                               011 64 clocks
2243 **                                                               100 128 clocks
2244 **                                                               101 256 clocks
2245 **                                                               110 Invalid (treated as 000)
2246 **                                                               111 Invalid (treated as 000)
2247 ** 09:08        00b                          Reserved
2248 ** 07:00        FFh                                 MTT Mask: This field enables/disables MTT usage for each REQ#/GNT#
2249 **								pair supported by bridge secondary arbiter.
2250 **                                                            Bit(7) corresponds to SATU internal REQ#/GNT# pair,
2251 **                                                            bit(6) corresponds to bridge internal REQ#/GNT# pair,
2252 **                                                            bit(5) corresponds to REQ#/GNT#(5) pair, etc.
2253 **                                                  When a given bit is set to 1b, its corresponding REQ#/GNT#
2254 **								pair is enabled for MTT functionality as determined by bits(12:10) of this register.
2255 **                                                  When a given bit is cleared to 0b, its corresponding REQ#/GNT# pair is disabled from using the MTT.
2256 **==================================================================================
2257 **  0x53-0x52: Read Prefetch Policy Register - RPPR
2258 ** Bit       Default                       Description
2259 ** 15:13       000b                    ReRead_Primary Bus: 3-bit field indicating the multiplication factor
2260 **							to be used in calculating the number of bytes to prefetch from the secondary bus interface on **								subsequent PreFetch operations given that the read demands were not satisfied
2261 **									using the FirstRead parameter.
2262 **                                           The default value of 000b correlates to: Command Type Hardwired pre-fetch amount Memory Read 4 DWORDs
2263 **							Memory Read Line 1 cache lines Memory Read Multiple 2 cache lines
2264 ** 12:10       000b                 FirstRead_Primary Bus: 3-bit field indicating the multiplication factor to be used in calculating
2265 **							the number of bytes to prefetch from the secondary bus interface
2266 **								on the initial PreFetch operation.
2267 **                                           The default value of 000b correlates to: Command Type Hardwired pre-fetch amount Memory Read 4 DWORDs
2268 **								Memory Read Line 1 cache line Memory Read Multiple 2 cache lines
2269 ** 09:07       010b                  ReRead_Secondary Bus: 3-bit field indicating the multiplication factor to be used
2270 **								in calculating the number of bytes to prefetch from the primary
2271 **									bus interface on subsequent PreFetch operations given
2272 **										that the read demands were not satisfied using
2273 **											the FirstRead parameter.
2274 **                                           The default value of 010b correlates to: Command Type Hardwired pre-fetch a
2275 **							mount Memory Read 3 cache lines Memory Read Line 3 cache lines
2276 **								Memory Read Multiple 6 cache lines
2277 ** 06:04       000b               FirstRead_Secondary Bus: 3-bit field indicating the multiplication factor to be used
2278 **							in calculating the number of bytes to prefetch from
2279 **								the primary bus interface on the initial PreFetch operation.
2280 **                                           The default value of 000b correlates to: Command Type Hardwired pre-fetch amount
2281 **							Memory Read 4 DWORDs Memory Read Line 1 cache line Memory Read Multiple 2 cache lines
2282 ** 03:00      1111b                Staged Prefetch Enable: This field enables/disables the FirstRead/ReRead pre-fetch
2283 **							algorithm for the secondary and the primary bus interfaces.
2284 **                                                         Bit(3) is a ganged enable bit for REQ#/GNT#[7:3], and bits(2:0) provide individual
2285 **                                                                            enable bits for REQ#/GNT#[2:0].
2286 **							  (bit(2) is the enable bit for REQ#/GNT#[2], etc...)
2287 **                                                                            1b: enables the staged pre-fetch feature
2288 **                                                                            0b: disables staged pre-fetch,
2289 **                                                         and hardwires read pre-fetch policy to the following for
2290 **                                                         Memory Read,
2291 **                                                         Memory Read Line,
2292 **                                                     and Memory Read Multiple commands:
2293 **                                                     Command Type Hardwired Pre-Fetch Amount...
2294 **                                                                                      Memory Read 4 DWORDs
2295 **                                                                                      Memory Read Line 1 cache line
2296 **                                                                                      Memory Read Multiple 2 cache lines
2297 ** NOTE: When the starting address is not cache line aligned, bridge pre-fetches Memory Read line commands
2298 ** only to the next higher cache line boundary.For non-cache line aligned Memory Read
2299 ** Multiple commands bridge pre-fetches only to the second cache line boundary encountered.
2300 **==================================================================================
2301 **  0x55-0x54: P_SERR# Assertion Control - SERR_CTL
2302 ** Bit       Default                       Description
2303 **  15          0b   Upstream Delayed Transaction Discard Timer Expired: Dictates the bridge behavior
2304 ** 						in response to its discarding of a delayed transaction that was initiated from the primary bus.
2305 **                                                                       0b=bridge asserts P_SERR#.
2306 **                                                                       1b=bridge does not assert P_SERR#
2307 **  14          0b   Upstream Delayed/Split Read Watchdog Timer Expired: Dictates bridge behavior following expiration of the subject watchdog timer.
2308 **                                                                       0b=bridge asserts P_SERR#.
2309 **                                                                       1b=bridge does not assert P_SERR#
2310 **  13          0b   Upstream Delayed/Split Write Watchdog Timer Expired: Dictates bridge behavior following expiration of the subject watchdog timer.
2311 **                                                                       0b=bridge asserts P_SERR#.
2312 **                                                                       1b=bridge does not assert P_SERR#
2313 **  12          0b             Master Abort during Upstream Posted Write: Dictates bridge behavior following
2314 **						its having detected a Master Abort while attempting to retire one of its PMWs upstream.
2315 **                                                                       0b=bridge asserts P_SERR#.
2316 **                                                                       1b=bridge does not assert P_SERR#
2317 **  11          0b             Target Abort during Upstream Posted Write: Dictates bridge behavior following
2318 **						its having been terminated with Target Abort while attempting to retire one of its PMWs upstream.
2319 **                                                                       0b=bridge asserts P_SERR#.
2320 **                                                                       1b=bridge does not assert P_SERR#
2321 **  10          0b                  Upstream Posted Write Data Discarded: Dictates bridge behavior in the event that
2322 **						it discards an upstream posted write transaction.
2323 **                                                                       0b=bridge asserts P_SERR#.
2324 **                                                                       1b=bridge does not assert P_SERR#
2325 **  09          0b               Upstream Posted Write Data Parity Error: Dictates bridge behavior
2326 **						when a data parity error is detected while attempting to retire on of its PMWs upstream.
2327 **                                                                       0b=bridge asserts P_SERR#.
2328 **                                                                       1b=bridge does not assert P_SERR#
2329 **  08          0b                    Secondary Bus Address Parity Error: This bit dictates bridge behavior
2330 **						when it detects an address parity error on the secondary bus.
2331 **                                                                       0b=bridge asserts P_SERR#.
2332 **                                                                       1b=bridge does not assert P_SERR#
2333 **  07          0b  Downstream Delayed Transaction Discard Timer Expired: Dictates bridge behavior in response to
2334 **						its discarding of a delayed transaction that was initiated on the secondary bus.
2335 **                                                                       0b=bridge asserts P_SERR#.
2336 **                                                                       1b=bridge does not assert P_SERR#
2337 **  06          0b  Downstream Delayed/Split Read Watchdog Timer Expired: Dictates bridge behavior following expiration of the subject watchdog timer.
2338 **                                                                       0b=bridge asserts P_SERR#.
2339 **                                                                       1b=bridge does not assert P_SERR#
2340 **  05          0b Downstream Delayed/Split Write Watchdog Timer Expired: Dictates bridge behavior following expiration of the subject watchdog timer.
2341 **                                                                       0b=bridge asserts P_SERR#.
2342 **                                                                       1b=bridge does not assert P_SERR#
2343 **  04          0b           Master Abort during Downstream Posted Write: Dictates bridge behavior following
2344 **						its having detected a Master Abort while attempting to retire one of its PMWs downstream.
2345 **                                                                       0b=bridge asserts P_SERR#.
2346 **                                                                       1b=bridge does not assert P_SERR#
2347 **  03          0b           Target Abort during Downstream Posted Write: Dictates bridge behavior following
2348 **						its having been terminated with Target Abort while attempting to retire one of its PMWs downstream.
2349 **                                                                       0b=bridge asserts P_SERR#.
2350 **                                                                       1b=bridge does not assert P_SERR#
2351 **  02          0b                Downstream Posted Write Data Discarded: Dictates bridge behavior in the event
2352 **						that it discards a downstream posted write transaction.
2353 **                                                                       0b=bridge asserts P_SERR#.
2354 **                                                                       1b=bridge does not assert P_SERR#
2355 **  01          0b             Downstream Posted Write Data Parity Error: Dictates bridge behavior
2356 **						when a data parity error is detected while attempting to retire on of its PMWs downstream.
2357 **                                                                       0b=bridge asserts P_SERR#.
2358 **                                                                       1b=bridge does not assert P_SERR#
2359 **  00          0b                      Primary Bus Address Parity Error: This bit dictates bridge behavior
2360 **						when it detects an address parity error on the primary bus.
2361 **                                                                       0b=bridge asserts P_SERR#.
2362 **                                                                       1b=bridge does not assert P_SERR#
2363 **===============================================================================
2364 **  0x56: Pre-Boot Status Register - PBSR
2365 ** Bit       Default                       							Description
2366 ** 07           1                          							 Reserved
2367 ** 06           -                          							 Reserved - value indeterminate
2368 ** 05:02        0                          							 Reserved
2369 ** 01      Varies with External State of S_133EN at PCI Bus Reset    Secondary Bus Max Frequency Setting:
2370 **									 This bit reflect captured S_133EN strap,
2371 **										indicating the maximum secondary bus clock frequency when in PCI-X mode.
2372 **                                                                   Max Allowable Secondary Bus Frequency
2373 **																			**						S_133EN PCI-X Mode
2374 **																			**						0 100 MHz
2375 **																			**						1 133 MH
2376 ** 00          0b                                                    Reserved
2377 **===============================================================================
2378 **  0x59-0x58: Secondary Decode Enable Register - SDER
2379 ** Bit       Default                       							Description
2380 ** 15:03      FFF1h                        							 Preserved.
2381 ** 02     Varies with External State of PRIVMEM at PCI Bus Reset   Private Memory Space Enable - when set,
2382 **									bridge overrides its secondary inverse decode logic and not
2383 **                                                                 forward upstream any secondary bus initiated DAC Memory transactions with AD(63)=1b.
2384 **                                                                 This creates a private memory space on the Secondary PCI bus
2385 **									that allows peer-to-peer transactions.
2386 ** 01:00      10 2                                                   Preserved.
2387 **===============================================================================
2388 **  0x5D-0x5C: Secondary IDSEL Select Register - SISR
2389 ** Bit       Default                       							Description
2390 ** 15:10     000000 2                      							 Reserved.
2391 ** 09    Varies with External State of PRIVDEV at PCI Bus Reset     AD25- IDSEL Disable - When this bit is set,
2392 **							AD25 is deasserted for any possible Type 1 to Type 0 conversion.
2393 **                                                                                        When this bit is clear,
2394 **							AD25 is asserted when Primary addresses AD[15:11]=01001 2 during a Type 1 to Type 0 conversion.
2395 ** 08    Varies with External State of PRIVDEV at PCI Bus Reset     AD24- IDSEL Disable - When this bit is set,
2396 **							AD24 is deasserted for any possible Type 1 to Type 0 conversion.
2397 **                                                                                        When this bit is clear,
2398 **							AD24 is asserted when Primary addresses AD[15:11]=01000 2 during a Type 1 to Type 0 conversion.
2399 ** 07    Varies with External State of PRIVDEV at PCI Bus Reset     AD23- IDSEL Disable - When this bit is set,
2400 **							AD23 is deasserted for any possible Type 1 to Type 0 conversion.
2401 **                                                                                        When this bit is clear,
2402 **							AD23 is asserted when Primary addresses AD[15:11]=00111 2 during a Type 1 to Type 0 conversion.
2403 ** 06    Varies with External State of PRIVDEV at PCI Bus Reset     AD22- IDSEL Disable - When this bit is set,
2404 **							AD22 is deasserted for any possible Type 1 to Type 0 conversion.
2405 **                                                                                        When this bit is clear,
2406 **							AD22 is asserted when Primary addresses AD[15:11]=00110 2 during a Type 1 to Type 0 conversion.
2407 ** 05    Varies with External State of PRIVDEV at PCI Bus Reset     AD21- IDSEL Disable - When this bit is set,
2408 **							AD21 is deasserted for any possible Type 1 to Type 0 conversion.
2409 **                                                                                        When this bit is clear,
2410 **							AD21 is asserted when Primary addresses AD[15:11]=00101 2 during a Type 1 to Type 0 conversion.
2411 ** 04    Varies with External State of PRIVDEV at PCI Bus Reset     AD20- IDSEL Disable - When this bit is set,
2412 **							AD20 is deasserted for any possible Type 1 to Type 0 conversion.
2413 **                                                                                        When this bit is clear,
2414 **							AD20 is asserted when Primary addresses AD[15:11]=00100 2 during a Type 1 to Type 0 conversion.
2415 ** 03    Varies with External State of PRIVDEV at PCI Bus Reset     AD19- IDSEL Disable - When this bit is set,
2416 **							AD19 is deasserted for any possible Type 1 to Type 0 conversion.
2417 **                                                                                        When this bit is clear,
2418 **							AD19 is asserted when Primary addresses AD[15:11]=00011 2 during a Type 1 to Type 0 conversion.
2419 ** 02    Varies with External State of PRIVDEV at PCI Bus Reset     AD18- IDSEL Disable - When this bit is set,
2420 **							AD18 is deasserted for any possible Type 1 to Type 0 conversion.
2421 **                                                                                        When this bit is clear,
2422 **							AD18 is asserted when Primary addresses AD[15:11]=00010 2 during a Type 1 to Type 0 conversion.
2423 ** 01    Varies with External State of PRIVDEV at PCI Bus Reset     AD17- IDSEL Disable - When this bit is set,
2424 **							AD17 is deasserted for any possible Type 1 to Type 0 conversion.
2425 **                                                                                        When this bit is clear,
2426 **							AD17 is asserted when Primary addresses AD[15:11]=00001 2 during a Type 1 to Type 0 conversion.
2427 ** 00    Varies with External State of PRIVDEV at PCI Bus Reset     AD16- IDSEL Disable - When this bit is set,
2428 **							AD16 is deasserted for any possible Type 1 to Type 0 conversion.
2429 **                                                                                        When this bit is clear,
2430 **							AD16 is asserted when Primary addresses AD[15:11]=00000 2 during a Type 1 to Type 0 conversion.
2431 **************************************************************************
2432 */
2433 /*
2434 **************************************************************************
2435 **                 Reserved      A8-CBh
2436 **************************************************************************
2437 */
2438 /*
2439 **************************************************************************
2440 **                  PCI Extended Enhanced Capabilities List CC-FFh
2441 **************************************************************************
2442 ** ----------------------------------------------------------------------------------------------------------
2443 ** |    Byte 3              |         Byte 2         |        Byte 1          |       Byte 0              | Configu-ration Byte Offset
2444 ** ----------------------------------------------------------------------------------------------------------
2445 ** |           Power Management Capabilities         |        Next Item Ptr   |     Capability ID         | DCh
2446 ** ----------------------------------------------------------------------------------------------------------
2447 ** |        PM Data         |       PPB Support      |            Extensions Power Management CSR         | E0h
2448 ** ----------------------------------------------------------------------------------------------------------
2449 ** |                    Reserved                     |        Reserved        |        Reserved           | E4h
2450 ** ----------------------------------------------------------------------------------------------------------
2451 ** |                                              Reserved                                                | E8h
2452 ** ----------------------------------------------------------------------------------------------------------
2453 ** |       Reserved         |        Reserved        |        Reserved        |         Reserved          | ECh
2454 ** ----------------------------------------------------------------------------------------------------------
2455 ** |              PCI-X Secondary Status             |       Next Item Ptr    |       Capability ID       | F0h
2456 ** ----------------------------------------------------------------------------------------------------------
2457 ** |                                         PCI-X Bridge Status                                          | F4h
2458 ** ----------------------------------------------------------------------------------------------------------
2459 ** |                                PCI-X Upstream Split Transaction Control                              | F8h
2460 ** ----------------------------------------------------------------------------------------------------------
2461 ** |                               PCI-X Downstream Split Transaction Control                             | FCh
2462 ** ----------------------------------------------------------------------------------------------------------
2463 **===============================================================================
2464 **  0xDC: Power Management Capabilities Identifier - PM_CAPID
2465 ** Bit       Default                       Description
2466 ** 07:00       01h                        Identifier (ID): PCI SIG assigned ID for PCI-PM register block
2467 **===============================================================================
2468 **  0xDD: Next Item Pointer - PM_NXTP
2469 ** Bit       Default                       Description
2470 ** 07:00       F0H                Next Capabilities Pointer (PTR): The register defaults to F0H pointing to the PCI-X Extended Capability Header.
2471 **===============================================================================
2472 **  0xDF-0xDE: Power Management Capabilities Register - PMCR
2473 ** Bit       Default                       Description
2474 ** 15:11       00h                     PME Supported (PME): PME# cannot be asserted by bridge.
2475 ** 10           0h                 State D2 Supported (D2): Indicates no support for state D2. No power management action in this state.
2476 ** 09           1h                 State D1 Supported (D1): Indicates support for state D1. No power management action in this state.
2477 ** 08:06        0h                Auxiliary Current (AUXC): This 3 bit field reports the 3.3Vaux auxiliary current requirements for the PCI function.
2478 **                                                          This returns 000b as PME# wake-up for bridge is not implemented.
2479 ** 05           0   Special Initialization Required (SINT): Special initialization is not required for bridge.
2480 ** 04:03       00                            Reserved
2481 ** 02:00       010                            Version (VS): Indicates that this supports PCI Bus Power Management Interface Specification, Revision 1.1.
2482 **===============================================================================
2483 **  0xE1-0xE0: Power Management Control / Status - Register - PMCSR
2484 ** Bit       Default                       Description
2485 ** 15:09       00h                          Reserved
2486 ** 08          0b                          PME_Enable: This bit, when set to 1b enables bridge to assert PME#.
2487 **	Note that bridge never has occasion to assert PME# and implements this dummy R/W bit only for the purpose of working around an OS PCI-PM bug.
2488 ** 07:02       00h                          Reserved
2489 ** 01:00       00                Power State (PSTATE): This 2-bit field is used both to determine the current power state of
2490 **									a function and to set the Function into a new power state.
2491 **  													00 - D0 state
2492 **  													01 - D1 state
2493 **  													10 - D2 state
2494 **  													11 - D3 hot state
2495 **===============================================================================
2496 **  0xE2: Power Management Control / Status PCI to PCI Bridge Support - PMCSR_BSE
2497 ** Bit       Default                       Description
2498 ** 07          0         Bus Power/Clock Control Enable (BPCC_En): Indicates that the bus power/clock control policies have been disabled.
2499 ** 06          0                B2/B3 support for D3 Hot (B2_B3#): The state of this bit determines the action that
2500 **									is to occur as a direct result of programming the function to D3 hot.
2501 **                                                                 This bit is only meaningful when bit 7 (BPCC_En) is a ��1��.
2502 ** 05:00     00h                            Reserved
2503 **===============================================================================
2504 **  0xE3: Power Management Data Register - PMDR
2505 ** Bit       Default                       Description
2506 ** 07:00       00h                          Reserved
2507 **===============================================================================
2508 **  0xF0: PCI-X Capabilities Identifier - PX_CAPID
2509 ** Bit       Default                       Description
2510 ** 07:00       07h                       Identifier (ID): Indicates this is a PCI-X capabilities list.
2511 **===============================================================================
2512 **  0xF1: Next Item Pointer - PX_NXTP
2513 ** Bit       Default                       Description
2514 ** 07:00       00h                     Next Item Pointer: Points to the next capability in the linked list The power on default value of this
2515 **                                                        register is 00h indicating that this is the last entry in the linked list of capabilities.
2516 **===============================================================================
2517 **  0xF3-0xF2: PCI-X Secondary Status - PX_SSTS
2518 ** Bit       Default                       Description
2519 ** 15:09       00h                          Reserved
2520 ** 08:06       Xxx                Secondary Clock Frequency (SCF): This field is set with the frequency of the secondary bus.
2521 **                                                                 The values are:
2522 ** 																			**		BitsMax FrequencyClock Period
2523 ** 																			**		000PCI ModeN/A
2524 ** 																			**		00166 15
2525 ** 																			**		01010010
2526 ** 																			**		0111337.5
2527 ** 																			**		1xxreservedreserved
2528 ** 																			**		The default value for this register is the operating frequency of the secondary bus
2529 ** 05           0b                   Split Request Delayed. (SRD):  This bit is supposed to be set by a bridge when it cannot forward a transaction on the
2530 ** 						secondary bus to the primary bus because there is not enough room within the limit
2531 ** 						specified in the Split Transaction Commitment Limit field in the Downstream Split
2532 ** 						Transaction Control register. The bridge does not set this bit.
2533 ** 04           0b                 Split Completion Overrun (SCO): This bit is supposed to be set when a bridge terminates a Split Completion on the **	**						secondary bus with retry or Disconnect at next ADB because its buffers are full.
2534 **						The bridge does not set this bit.
2535 ** 03           0b              Unexpected Split Completion (USC): This bit is set when an unexpected split completion with a requester ID
2536 **						equal to bridge secondary bus number, device number 00h,
2537 **						and function number 0 is received on the secondary interface.
2538 **						This bit is cleared by software writing a '1'.
2539 ** 02           0b               Split Completion Discarded (SCD): This bit is set
2540 **						when bridge discards a split completion moving toward the secondary bus
2541 **						because the requester would not accept it. This bit cleared by software writing a '1'.
2542 ** 01           1b                                133 MHz Capable: Indicates that bridge is capable of running its secondary bus at 133 MHz
2543 ** 00           1b                            64-bit Device (D64): Indicates the width of the secondary bus as 64-bits.
2544 **===============================================================================
2545 **  0xF7-0xF6-0xf5-0xF4: PCI-X Bridge Status - PX_BSTS
2546 ** Bit       Default      								                 Description
2547 ** 31:22        0         								                  Reserved
2548 ** 21           0         							Split Request Delayed (SRD): This bit does not be set by bridge.
2549 ** 20           0         							Split Completion Overrun (SCO): This bit does not be set by bridge
2550 **										because bridge throttles traffic on the completion side.
2551 ** 19           0         							Unexpected Split Completion (USC): The bridge sets this bit to 1b
2552 **										when it encounters a corrupted Split Completion, possibly with an **	**										inconsistent remaining byte count.Software clears
2553 **										this bit by writing a 1b to it.
2554 ** 18           0         							Split Completion Discarded (SCD): The bridge sets this bit to 1b
2555 **										when it has discarded a Split Completion.Software clears this bit by **	**										writing a 1b to it.
2556 ** 17           1         							133 MHz Capable: This bit indicates that the bridge primary interface is **										capable of 133 MHz operation in PCI-X mode.
2557 **										0=The maximum operating frequency is 66 MHz.
2558 **										1=The maximum operating frequency is 133 MHz.
2559 ** 16 Varies with the external state of P_32BITPCI# at PCI Bus Reset    64-bit Device (D64): Indicates bus width of the Primary PCI bus interface.
2560 **										 0=Primary Interface is connected as a 32-bit PCI bus.
2561 **										 1=Primary Interface is connected as a 64-bit PCI bus.
2562 ** 15:08       00h 								Bus Number (BNUM): This field is simply an alias to the PBN field
2563 **											of the BNUM register at offset 18h.
2564 **								Apparently it was deemed necessary reflect it here for diagnostic purposes.
2565 ** 07:03       1fh						Device Number (DNUM): Indicates which IDSEL bridge consumes.
2566 **								May be updated whenever a PCI-X
2567 **								 configuration write cycle that targets bridge scores a hit.
2568 ** 02:00        0h                                                   Function Number (FNUM): The bridge Function #
2569 **===============================================================================
2570 **  0xFB-0xFA-0xF9-0xF8: PCI-X Upstream Split Transaction Control - PX_USTC
2571 ** Bit       Default                       Description
2572 ** 31:16      003Eh                 Split Transaction Limit (STL): This register indicates the size of the commitment limit in units of ADQs.
2573 **                                                                 Software is permitted to program this register to any value greater than or equal to
2574 **                                                                 the contents of the Split Transaction Capacity register. A value less than the contents
2575 **                                                                 of the Split Transaction Capacity register causes unspecified results.
2576 **                                                                 A value of 003Eh or greater enables the bridge to forward all Split Requests of any
2577 **                                                                 size regardless of the amount of buffer space available.
2578 ** 15:00      003Eh              Split Transaction Capacity (STC): This read-only field indicates the size of the buffer (number of ADQs) for storing
2579 ** 				   split completions. This register controls behavior of the bridge buffers for forwarding
2580 ** 				   Split Transactions from a primary bus requester to a secondary bus completer.
2581 ** 				   The default value of 003Eh indicates there is available buffer space for 62 ADQs (7936 bytes).
2582 **===============================================================================
2583 **  0xFF-0xFE-0xFD-0xFC: PCI-X Downstream Split Transaction Control - PX_DSTC
2584 ** Bit       Default                       Description
2585 ** 31:16      003Eh                 Split Transaction Limit (STL):  This register indicates the size of the commitment limit in units of ADQs.
2586 **							Software is permitted to program this register to any value greater than or equal to
2587 **							the contents of the Split Transaction Capacity register. A value less than the contents
2588 **							of the Split Transaction Capacity register causes unspecified results.
2589 **							A value of 003Eh or greater enables the bridge to forward all Split Requests of any
2590 **							size regardless of the amount of buffer space available.
2591 ** 15:00      003Eh              Split Transaction Capacity (STC): This read-only field indicates the size of the buffer (number of ADQs) for storing
2592 **                                                                 split completions. This register controls behavior of the bridge buffers for forwarding
2593 **                                                                 Split Transactions from a primary bus requester to a secondary bus completer.
2594 **                                                                 The default value of 003Eh indicates there is available buffer space for 62 ADQs
2595 **									(7936 bytes).
2596 **************************************************************************
2597 */
2598 
2599 /*
2600 *************************************************************************************************************************************
2601 **                       80331 Address Translation Unit Register Definitions
2602 **                               ATU Interface Configuration Header Format
2603 **               The ATU is programmed via a [Type 0] configuration command on the PCI interface.
2604 *************************************************************************************************************************************
2605 ** |    Byte 3              |         Byte 2         |        Byte 1          |       Byte 0              | Configuration Byte Offset
2606 **===================================================================================================================================
2607 ** |                ATU Device ID                    |                     Vendor ID                      | 00h
2608 ** ----------------------------------------------------------------------------------------------------------
2609 ** |                     Status                      |                     Command                        | 04H
2610 ** ----------------------------------------------------------------------------------------------------------
2611 ** |                              ATU Class Code                              |       Revision ID         | 08H
2612 ** ----------------------------------------------------------------------------------------------------------
2613 ** |         ATUBISTR       |     Header Type        |      Latency Timer     |      Cacheline Size       | 0CH
2614 ** ----------------------------------------------------------------------------------------------------------
2615 ** |                                     Inbound ATU Base Address 0                                       | 10H
2616 ** ----------------------------------------------------------------------------------------------------------
2617 ** |                               Inbound ATU Upper Base Address 0                                       | 14H
2618 ** ----------------------------------------------------------------------------------------------------------
2619 ** |                                     Inbound ATU Base Address 1                                       | 18H
2620 ** ----------------------------------------------------------------------------------------------------------
2621 ** |                               Inbound ATU Upper Base Address 1                                       | 1CH
2622 ** ----------------------------------------------------------------------------------------------------------
2623 ** |                                     Inbound ATU Base Address 2                                       | 20H
2624 ** ----------------------------------------------------------------------------------------------------------
2625 ** |                               Inbound ATU Upper Base Address 2                                       | 24H
2626 ** ----------------------------------------------------------------------------------------------------------
2627 ** |                                             Reserved                                                 | 28H
2628 ** ----------------------------------------------------------------------------------------------------------
2629 ** |                ATU Subsystem ID                 |                ATU Subsystem Vendor ID             | 2CH
2630 ** ----------------------------------------------------------------------------------------------------------
2631 ** |                                       Expansion ROM Base Address                                     | 30H
2632 ** ----------------------------------------------------------------------------------------------------------
2633 ** |                                    Reserved Capabilities Pointer                                     | 34H
2634 ** ----------------------------------------------------------------------------------------------------------
2635 ** |                                             Reserved                                                 | 38H
2636 ** ----------------------------------------------------------------------------------------------------------
2637 ** |     Maximum Latency    |     Minimum Grant      |       Interrupt Pin    |      Interrupt Line       | 3CH
2638 ** ----------------------------------------------------------------------------------------------------------
2639 *********************************************************************************************************************
2640 */
2641 /*
2642 ***********************************************************************************
2643 **  ATU Vendor ID Register - ATUVID
2644 **  -----------------------------------------------------------------
2645 **  Bit       Default                       Description
2646 **  15:00      8086H (0x17D3)               ATU Vendor ID - This is a 16-bit value assigned to Intel.
2647 **						This register, combined with the DID, uniquely identify the PCI device.
2648 **      Access type is Read/Write to allow the 80331 to configure the register as a different vendor ID
2649 **	to simulate the interface of a standard mechanism currently used by existing application software.
2650 ***********************************************************************************
2651 */
2652 #define     ARCMSR_ATU_VENDOR_ID_REG		         0x00    /*word*/
2653 /*
2654 ***********************************************************************************
2655 **  ATU Device ID Register - ATUDID
2656 **  -----------------------------------------------------------------
2657 **  Bit       Default                       Description
2658 **  15:00      0336H (0x1110)               ATU Device ID - This is a 16-bit value assigned to the ATU.
2659 **	This ID, combined with the VID, uniquely identify any PCI device.
2660 ***********************************************************************************
2661 */
2662 #define     ARCMSR_ATU_DEVICE_ID_REG		         0x02    /*word*/
2663 /*
2664 ***********************************************************************************
2665 **  ATU Command Register - ATUCMD
2666 **  -----------------------------------------------------------------
2667 **  Bit       Default                       Description
2668 **  15:11      000000 2                     Reserved
2669 **  10           0                          Interrupt Disable - This bit disables 80331 from asserting the ATU interrupt signal.
2670 **                                                              0=enables the assertion of interrupt signal.
2671 **                                                              1=disables the assertion of its interrupt signal.
2672 **  09          0 2                         Fast Back to Back Enable - When cleared,
2673 **						the ATU interface is not allowed to generate fast back-to-back cycles on its bus.
2674 **						Ignored when operating in the PCI-X mode.
2675 **  08          0 2                         SERR# Enable - When cleared, the ATU interface is not allowed to assert SERR# on the PCI interface.
2676 **  07          1 2                         Address/Data Stepping Control - Address stepping is implemented for configuration transactions. The
2677 **                                          ATU inserts 2 clock cycles of address stepping for Conventional Mode and 4 clock cycles
2678 **						of address stepping for PCI-X mode.
2679 **  06          0 2                         Parity Error Response - When set, the ATU takes normal action when a parity error
2680 **						is detected. When cleared, parity checking is disabled.
2681 **  05          0 2                         VGA Palette Snoop Enable - The ATU interface does not support I/O writes and therefore,
2682 **						does not perform VGA palette snooping.
2683 **  04          0 2                         Memory Write and Invalidate Enable - When set, ATU may generate MWI commands.
2684 **						When clear, ATU use Memory Write commands instead of MWI. Ignored when operating in the PCI-X mode.
2685 **  03          0 2                         Special Cycle Enable - The ATU interface does not respond to special cycle commands in any way.
2686 **						Not implemented and a reserved bit field.
2687 **  02          0 2                         Bus Master Enable - The ATU interface can act as a master on the PCI bus.
2688 **						When cleared, disables the device from generating PCI accesses.
2689 **						When set, allows the device to behave as a PCI bus master.
2690 **                                          When operating in the PCI-X mode, ATU initiates a split completion transaction regardless
2691 **						of the state of this bit.
2692 **  01          0 2                         Memory Enable - Controls the ATU interface��s response to PCI memory addresses.
2693 **						When cleared, the ATU interface does not respond to any memory access on the PCI bus.
2694 **  00          0 2                         I/O Space Enable - Controls the ATU interface response to I/O transactions.
2695 **						Not implemented and a reserved bit field.
2696 ***********************************************************************************
2697 */
2698 #define     ARCMSR_ATU_COMMAND_REG		         0x04    /*word*/
2699 /*
2700 ***********************************************************************************
2701 **  ATU Status Register - ATUSR (Sheet 1 of 2)
2702 **  -----------------------------------------------------------------
2703 **  Bit       Default                       Description
2704 **  15          0 2                         Detected Parity Error - set when a parity error is detected in data received by the ATU on the PCI bus even
2705 **  					when the ATUCMD register��s Parity Error Response bit is cleared. Set under the following conditions:
2706 **  										�E Write Data Parity Error when the ATU is a target (inbound write).
2707 **  										�E Read Data Parity Error when the ATU is a requester (outbound read).
2708 **  										�E Any Address or Attribute (PCI-X Only) Parity Error on the Bus **	** **  								(including one generated by the ATU).
2709 **  14          0 2                         SERR# Asserted - set when SERR# is asserted on the PCI bus by the ATU.
2710 **  13          0 2                         Master Abort - set when a transaction initiated by the ATU PCI master interface, ends in a Master-Abort
2711 **                                          or when the ATU receives a Master Abort Split Completion Error Message in PCI-X mode.
2712 **  12          0 2                         Target Abort (master) - set when a transaction initiated by the ATU PCI master interface, ends in a target
2713 **                                          abort or when the ATU receives a Target Abort Split Completion Error Message in PCI-X mode.
2714 **  11          0 2                         Target Abort (target) - set when the ATU interface, acting as a target,
2715 **						terminates the transaction on the PCI bus with a target abort.
2716 **  10:09       01 2                        DEVSEL# Timing - These bits are read-only and define the slowest DEVSEL#
2717 **						timing for a target device in Conventional PCI Mode regardless of the operating mode
2718 **							(except configuration accesses).
2719 **  										00 2=Fast
2720 **  										01 2=Medium
2721 **  										10 2=Slow
2722 **  										11 2=Reserved
2723 **                                          The ATU interface uses Medium timing.
2724 **  08           0 2                        Master Parity Error - The ATU interface sets this bit under the following conditions:
2725 **  										�E The ATU asserted PERR# itself or the ATU observed PERR# asserted.
2726 **  										�E And the ATU acted as the requester
2727 **											for the operation in which the error occurred.
2728 **  										�E And the ATUCMD register��s Parity Error Response bit is set
2729 **  										�E Or (PCI-X Mode Only) the ATU received a Write Data Parity Error Message
2730 **  										�E And the ATUCMD register��s Parity Error Response bit is set
2731 **  07           1 2  (Conventional mode)
2732 **               0 2  (PCI-X mode)
2733 **  							Fast Back-to-Back - The ATU/Messaging Unit interface is capable of accepting fast back-to-back
2734 **  							transactions in Conventional PCI mode when the transactions are not to the same target. Since fast
2735 **  							back-to-back transactions do not exist in PCI-X mode, this bit is forced to 0 in the PCI-X mode.
2736 **  06           0 2                        UDF Supported - User Definable Features are not supported
2737 **  05           1 2                        66 MHz. Capable - 66 MHz operation is supported.
2738 **  04           1 2                        Capabilities - When set, this function implements extended capabilities.
2739 **  03             0                        Interrupt Status - reflects the state of the ATU interrupt
2740 **						when the Interrupt Disable bit in the command register is a 0.
2741 **  										0=ATU interrupt signal deasserted.
2742 **  										1=ATU interrupt signal asserted.
2743 **  		NOTE: Setting the Interrupt Disable bit to a 1 has no effect on the state of this bit. Refer to
2744 **  		Section 3.10.23, ��ATU Interrupt Pin Register - ATUIPR�� on page 236 for details on the ATU
2745 **  										interrupt signal.
2746 **  02:00      00000 2                      Reserved.
2747 ***********************************************************************************
2748 */
2749 #define     ARCMSR_ATU_STATUS_REG		         0x06    /*word*/
2750 /*
2751 ***********************************************************************************
2752 **  ATU Revision ID Register - ATURID
2753 **  -----------------------------------------------------------------
2754 **  Bit       Default                       Description
2755 **  07:00        00H                        ATU Revision - identifies the 80331 revision number.
2756 ***********************************************************************************
2757 */
2758 #define     ARCMSR_ATU_REVISION_REG		         0x08    /*byte*/
2759 /*
2760 ***********************************************************************************
2761 **  ATU Class Code Register - ATUCCR
2762 **  -----------------------------------------------------------------
2763 **  Bit       Default                       Description
2764 **  23:16        05H                        Base Class - Memory Controller
2765 **  15:08        80H                        Sub Class - Other Memory Controller
2766 **  07:00        00H                        Programming Interface - None defined
2767 ***********************************************************************************
2768 */
2769 #define     ARCMSR_ATU_CLASS_CODE_REG		         0x09    /*3bytes 0x0B,0x0A,0x09*/
2770 /*
2771 ***********************************************************************************
2772 **  ATU Cacheline Size Register - ATUCLSR
2773 **  -----------------------------------------------------------------
2774 **  Bit       Default                       Description
2775 **  07:00        00H                        ATU Cacheline Size - specifies the system cacheline size in DWORDs. Cacheline size is restricted to either 0, 8 or 16 DWORDs.
2776 ***********************************************************************************
2777 */
2778 #define     ARCMSR_ATU_CACHELINE_SIZE_REG		         0x0C    /*byte*/
2779 /*
2780 ***********************************************************************************
2781 **  ATU Latency Timer Register - ATULT
2782 **  -----------------------------------------------------------------
2783 **  Bit       Default                       Description
2784 **  07:03     00000 2   (for Conventional mode)
2785 **            01000 2   (for PCI-X mode)
2786 **  			Programmable Latency Timer - This field varies the latency timer for the interface from 0 to 248 clocks.
2787 **  			The default value is 0 clocks for Conventional PCI mode, and 64 clocks for PCI-X mode.
2788 **  02:00       000 2   Latency Timer Granularity - These Bits are read only giving a programmable granularity of 8 clocks for the latency timer.
2789 ***********************************************************************************
2790 */
2791 #define     ARCMSR_ATU_LATENCY_TIMER_REG		         0x0D    /*byte*/
2792 /*
2793 ***********************************************************************************
2794 **  ATU Header Type Register - ATUHTR
2795 **  -----------------------------------------------------------------
2796 **  Bit       Default                       Description
2797 **  07           0 2                        Single Function/Multi-Function Device - Identifies the 80331 as a single-function PCI device.
2798 **  06:00   000000 2                        PCI Header Type - This bit field indicates the type of PCI header implemented. The ATU interface
2799 **                                          header conforms to PCI Local Bus Specification, Revision 2.3.
2800 ***********************************************************************************
2801 */
2802 #define     ARCMSR_ATU_HEADER_TYPE_REG		         0x0E    /*byte*/
2803 /*
2804 ***********************************************************************************
2805 **  ATU BIST Register - ATUBISTR
2806 **
2807 **  The ATU BIST Register controls the functions the Intel XScale core performs when BIST is
2808 **  initiated. This register is the interface between the host processor requesting BIST functions and
2809 **  the 80331 replying with the results from the software implementation of the BIST functionality.
2810 **  -----------------------------------------------------------------
2811 **  Bit       Default                       Description
2812 **  07           0 2                        BIST Capable - This bit value is always equal to the ATUCR ATU BIST Interrupt Enable bit.
2813 **  06           0 2                        Start BIST - When the ATUCR BIST Interrupt Enable bit is set:
2814 **  				 Setting this bit generates an interrupt to the Intel XScale core to perform a software BIST function.
2815 **  				 The Intel XScale core clears this bit when the BIST software has completed with the BIST results
2816 **  				 found in ATUBISTR register bits [3:0].
2817 **  				 When the ATUCR BIST Interrupt Enable bit is clear:
2818 **  				 Setting this bit does not generate an interrupt to the Intel XScale core and no BIST functions is performed.
2819 **                                                       The Intel XScale core does not clear this bit.
2820 **  05:04       00 2             Reserved
2821 **  03:00     0000 2             BIST Completion Code - when the ATUCR BIST Interrupt Enable bit is set and the ATUBISTR Start BIST bit is set (bit 6):
2822 **                               The Intel XScale  core places the results of the software BIST in these bits.
2823 **				 A nonzero value indicates a device-specific error.
2824 ***********************************************************************************
2825 */
2826 #define     ARCMSR_ATU_BIST_REG		         0x0F    /*byte*/
2827 
2828 /*
2829 ***************************************************************************************
2830 **            ATU Base Registers and Associated Limit Registers
2831 ***************************************************************************************
2832 **           Base Address                         Register Limit                          Register Description
2833 **  Inbound ATU Base Address Register 0           Inbound ATU Limit Register 0            Defines the inbound translation window 0 from the PCI bus.
2834 **  Inbound ATU Upper Base Address Register 0     N/A                                     Together with ATU Base Address Register 0 defines the inbound **								translation window 0 from the PCI bus for DACs.
2835 **  Inbound ATU Base Address Register 1           Inbound ATU Limit Register 1            Defines inbound window 1 from the PCI bus.
2836 **  Inbound ATU Upper Base Address Register 1     N/A                                     Together with ATU Base Address Register 1 defines inbound window **  1 from the PCI bus for DACs.
2837 **  Inbound ATU Base Address Register 2           Inbound ATU Limit Register 2            Defines the inbound translation window 2 from the PCI bus.
2838 **  Inbound ATU Upper Base Address Register 2     N/A                                     Together with ATU Base Address Register 2 defines the inbound ** **  translation window 2 from the PCI bus for DACs.
2839 **  Inbound ATU Base Address Register 3           Inbound ATU Limit Register 3            Defines the inbound translation window 3 from the PCI bus.
2840 **  Inbound ATU Upper Base Address Register 3     N/A                                     Together with ATU Base Address Register 3 defines the inbound ** **  translation window 3 from the PCI bus for DACs.
2841 **     NOTE: This is a private BAR that resides outside of the standard PCI configuration header space (offsets 00H-3FH).
2842 **  Expansion ROM Base Address Register           Expansion ROM Limit Register            Defines the window of addresses used by a bus master for reading **  from an Expansion ROM.
2843 **--------------------------------------------------------------------------------------
2844 **  ATU Inbound Window 1 is not a translate window.
2845 **  The ATU does not claim any PCI accesses that fall within this range.
2846 **  This window is used to allocate host memory for use by Private Devices.
2847 **  When enabled, the ATU interrupts the Intel  XScale core when either the IABAR1 register or the IAUBAR1 register is written from the PCI bus.
2848 ***********************************************************************************
2849 */
2850 
2851 /*
2852 ***********************************************************************************
2853 **  Inbound ATU Base Address Register 0 - IABAR0
2854 **
2855 **  . The Inbound ATU Base Address Register 0 (IABAR0) together with the Inbound ATU Upper Base Address Register 0 (IAUBAR0)
2856 **    defines the block of memory addresses where the inbound translation window 0 begins.
2857 **  . The inbound ATU decodes and forwards the bus request to the 80331 internal bus with a translated address to map into 80331 local memory.
2858 **  . The IABAR0 and IAUBAR0 define the base address and describes the required memory block size.
2859 **  . Bits 31 through 12 of the IABAR0 is either read/write bits or read only with a value of 0
2860 **    depending on the value located within the IALR0.
2861 **    This configuration allows the IABAR0 to be programmed per PCI Local Bus Specification.
2862 **    The first 4 Kbytes of memory defined by the IABAR0, IAUBAR0 and the IALR0 is reserved for the Messaging Unit.
2863 **    The programmed value within the base address register must comply with the PCI programming requirements for address alignment.
2864 **  Warning:
2865 **    When IALR0 is cleared prior to host configuration:
2866 **                          the user should also clear the Prefetchable Indicator and the Type Indicator.
2867 **    Assuming IALR0 is not cleared:
2868 **                          a. Since non prefetchable memory windows can never be placed above the 4 Gbyte address boundary,
2869 **                             when the Prefetchable Indicator is cleared prior to host configuration,
2870 **                             the user should also set the Type Indicator for 32 bit addressability.
2871 **                          b. For compliance to the PCI-X Addendum to the PCI Local Bus Specification,
2872 **                             when the Prefetchable Indicator is set prior to host configuration, the user
2873 **                             should also set the Type Indicator for 64 bit addressability.
2874 **                             This is the default for IABAR0.
2875 **  -----------------------------------------------------------------
2876 **  Bit       Default                       Description
2877 **  31:12     00000H                        Translation Base Address 0 - These bits define the actual location
2878 **						the translation function is to respond to when addressed from the PCI bus.
2879 **  11:04        00H                        Reserved.
2880 **  03           1 2                        Prefetchable Indicator - When set, defines the memory space as prefetchable.
2881 **  02:01       10 2                        Type Indicator - Defines the width of the addressability for this memory window:
2882 **  						00 - Memory Window is locatable anywhere in 32 bit address space
2883 **  						10 - Memory Window is locatable anywhere in 64 bit address space
2884 **  00           0 2                        Memory Space Indicator - This bit field describes memory or I/O space base address.
2885 **                                                                   The ATU does not occupy I/O space,
2886 **                                                                   thus this bit must be zero.
2887 ***********************************************************************************
2888 */
2889 #define     ARCMSR_INBOUND_ATU_BASE_ADDRESS0_REG		         0x10    /*dword 0x13,0x12,0x11,0x10*/
2890 #define     ARCMSR_INBOUND_ATU_MEMORY_PREFETCHABLE	                 0x08
2891 #define     ARCMSR_INBOUND_ATU_MEMORY_WINDOW64		                 0x04
2892 /*
2893 ***********************************************************************************
2894 **  Inbound ATU Upper Base Address Register 0 - IAUBAR0
2895 **
2896 **  This register contains the upper base address when decoding PCI addresses beyond 4 GBytes.
2897 **  Together with the Translation Base Address this register defines the actual location the translation
2898 **  function is to respond to when addressed from the PCI bus for addresses > 4GBytes (for DACs).
2899 **  The programmed value within the base address register must comply with the PCI programming requirements for address alignment.
2900 **  Note:
2901 **      When the Type indicator of IABAR0 is set to indicate 32 bit addressability,
2902 **      the IAUBAR0 register attributes are read-only.
2903 **  -----------------------------------------------------------------
2904 **  Bit       Default                       Description
2905 **  31:0      00000H                        Translation Upper Base Address 0 - Together with the Translation Base Address 0 these bits define the
2906 **                           actual location the translation function is to respond to when addressed from the PCI bus for addresses > 4GBytes.
2907 ***********************************************************************************
2908 */
2909 #define     ARCMSR_INBOUND_ATU_UPPER_BASE_ADDRESS0_REG		     0x14    /*dword 0x17,0x16,0x15,0x14*/
2910 /*
2911 ***********************************************************************************
2912 **  Inbound ATU Base Address Register 1 - IABAR1
2913 **
2914 **  . The Inbound ATU Base Address Register (IABAR1) together with the Inbound ATU Upper Base Address Register 1 (IAUBAR1)
2915 **    defines the block of memory addresses where the inbound translation window 1 begins.
2916 **  . This window is used merely to allocate memory on the PCI bus and, the ATU does not process any PCI bus transactions to this memory range.
2917 **  . The programmed value within the base address register must comply with the PCI programming requirements for address alignment.
2918 **  . When enabled, the ATU interrupts the Intel XScale core when the IABAR1 register is written from the PCI bus.
2919 **    Warning:
2920 **    When a non-zero value is not written to IALR1 prior to host configuration,
2921 **                          the user should not set either the Prefetchable Indicator or the Type Indicator for 64 bit addressability.
2922 **                          This is the default for IABAR1.
2923 **    Assuming a non-zero value is written to IALR1,
2924 **               			the user may set the Prefetchable Indicator
2925 **               			              or the Type         Indicator:
2926 **  						a. Since non prefetchable memory windows can never be placed above the 4 Gbyte address
2927 **  						   boundary, when the Prefetchable Indicator is not set prior to host configuration,
2928 **                             the user should also leave the Type Indicator set for 32 bit addressability.
2929 **                             This is the default for IABAR1.
2930 **  						b. when the Prefetchable Indicator is set prior to host configuration,
2931 **                             the user should also set the Type Indicator for 64 bit addressability.
2932 **  -----------------------------------------------------------------
2933 **  Bit       Default                       Description
2934 **  31:12     00000H                        Translation Base Address 1 - These bits define the actual location of window 1 on the PCI bus.
2935 **  11:04        00H                        Reserved.
2936 **  03           0 2                        Prefetchable Indicator - When set, defines the memory space as prefetchable.
2937 **  02:01       00 2                        Type Indicator - Defines the width of the addressability for this memory window:
2938 **  			00 - Memory Window is locatable anywhere in 32 bit address space
2939 **  			10 - Memory Window is locatable anywhere in 64 bit address space
2940 **  00           0 2                        Memory Space Indicator - This bit field describes memory or I/O space base address.
2941 **                                                                   The ATU does not occupy I/O space,
2942 **                                                                   thus this bit must be zero.
2943 ***********************************************************************************
2944 */
2945 #define     ARCMSR_INBOUND_ATU_BASE_ADDRESS1_REG		         0x18    /*dword 0x1B,0x1A,0x19,0x18*/
2946 /*
2947 ***********************************************************************************
2948 **  Inbound ATU Upper Base Address Register 1 - IAUBAR1
2949 **
2950 **  This register contains the upper base address when locating this window for PCI addresses beyond 4 GBytes.
2951 **  Together with the IABAR1 this register defines the actual location for this memory window for addresses > 4GBytes (for DACs).
2952 **  This window is used merely to allocate memory on the PCI bus and, the ATU does not process any PCI bus transactions to this memory range.
2953 **  The programmed value within the base address register must comply with the PCI programming
2954 **  requirements for address alignment.
2955 **  When enabled, the ATU interrupts the Intel XScale core when the IAUBAR1 register is written
2956 **  from the PCI bus.
2957 **  Note:
2958 **      When the Type indicator of IABAR1 is set to indicate 32 bit addressability,
2959 **      the IAUBAR1 register attributes are read-only.
2960 **      This is the default for IABAR1.
2961 **  -----------------------------------------------------------------
2962 **  Bit       Default                       Description
2963 **  31:0      00000H                        Translation Upper Base Address 1 - Together with the Translation Base Address 1
2964 **						these bits define the actual location for this memory window on the PCI bus for addresses > 4GBytes.
2965 ***********************************************************************************
2966 */
2967 #define     ARCMSR_INBOUND_ATU_UPPER_BASE_ADDRESS1_REG		         0x1C    /*dword 0x1F,0x1E,0x1D,0x1C*/
2968 /*
2969 ***********************************************************************************
2970 **  Inbound ATU Base Address Register 2 - IABAR2
2971 **
2972 **  . The Inbound ATU Base Address Register 2 (IABAR2) together with the Inbound ATU Upper Base Address Register 2 (IAUBAR2)
2973 **           defines the block of memory addresses where the inbound translation window 2 begins.
2974 **  . The inbound ATU decodes and forwards the bus request to the 80331 internal bus with a translated address to map into 80331 local memory.
2975 **  . The IABAR2 and IAUBAR2 define the base address and describes the required memory block size
2976 **  . Bits 31 through 12 of the IABAR2 is either read/write bits or read only with a value of 0 depending on the value located within the IALR2.
2977 **    The programmed value within the base address register must comply with the PCI programming requirements for address alignment.
2978 **  Warning:
2979 **    When a non-zero value is not written to IALR2 prior to host configuration,
2980 **                          the user should not set either the Prefetchable Indicator
2981 **                                                      or the Type         Indicator for 64 bit addressability.
2982 **                          This is the default for IABAR2.
2983 **  Assuming a non-zero value is written to IALR2,
2984 **                          the user may set the Prefetchable Indicator
2985 **                                        or the Type         Indicator:
2986 **  						a. Since non prefetchable memory windows can never be placed above the 4 Gbyte address boundary,
2987 **                             when the Prefetchable Indicator is not set prior to host configuration,
2988 **                             the user should also leave the Type Indicator set for 32 bit addressability.
2989 **                             This is the default for IABAR2.
2990 **  						b. when the Prefetchable Indicator is set prior to host configuration,
2991 **                             the user should also set the Type Indicator for 64 bit addressability.
2992 **  -----------------------------------------------------------------
2993 **  Bit       Default                       Description
2994 **  31:12     00000H                        Translation Base Address 2 - These bits define the actual location
2995 **						the translation function is to respond to when addressed from the PCI bus.
2996 **  11:04        00H                        Reserved.
2997 **  03           0 2                        Prefetchable Indicator - When set, defines the memory space as prefetchable.
2998 **  02:01       00 2                        Type Indicator - Defines the width of the addressability for this memory window:
2999 **  			00 - Memory Window is locatable anywhere in 32 bit address space
3000 **  			10 - Memory Window is locatable anywhere in 64 bit address space
3001 **  00           0 2                        Memory Space Indicator - This bit field describes memory or I/O space base address.
3002 **                                                                   The ATU does not occupy I/O space,
3003 **                                                                   thus this bit must be zero.
3004 ***********************************************************************************
3005 */
3006 #define     ARCMSR_INBOUND_ATU_BASE_ADDRESS2_REG		         0x20    /*dword 0x23,0x22,0x21,0x20*/
3007 /*
3008 ***********************************************************************************
3009 **  Inbound ATU Upper Base Address Register 2 - IAUBAR2
3010 **
3011 **  This register contains the upper base address when decoding PCI addresses beyond 4 GBytes.
3012 **  Together with the Translation Base Address this register defines the actual location
3013 **  the translation function is to respond to when addressed from the PCI bus for addresses > 4GBytes (for DACs).
3014 **  The programmed value within the base address register must comply with the PCI programming
3015 **  requirements for address alignment.
3016 **  Note:
3017 **      When the Type indicator of IABAR2 is set to indicate 32 bit addressability,
3018 **      the IAUBAR2 register attributes are read-only.
3019 **      This is the default for IABAR2.
3020 **  -----------------------------------------------------------------
3021 **  Bit       Default                       Description
3022 **  31:0      00000H                        Translation Upper Base Address 2 - Together with the Translation Base Address 2
3023 **                                          these bits define the actual location the translation function is to respond to
3024 **                                          when addressed from the PCI bus for addresses > 4GBytes.
3025 ***********************************************************************************
3026 */
3027 #define     ARCMSR_INBOUND_ATU_UPPER_BASE_ADDRESS2_REG		         0x24    /*dword 0x27,0x26,0x25,0x24*/
3028 /*
3029 ***********************************************************************************
3030 **  ATU Subsystem Vendor ID Register - ASVIR
3031 **  -----------------------------------------------------------------
3032 **  Bit       Default                       Description
3033 **  15:0      0000H                         Subsystem Vendor ID - This register uniquely identifies the add-in board or subsystem vendor.
3034 ***********************************************************************************
3035 */
3036 #define     ARCMSR_ATU_SUBSYSTEM_VENDOR_ID_REG		         0x2C    /*word 0x2D,0x2C*/
3037 /*
3038 ***********************************************************************************
3039 **  ATU Subsystem ID Register - ASIR
3040 **  -----------------------------------------------------------------
3041 **  Bit       Default                       Description
3042 **  15:0      0000H                         Subsystem ID - uniquely identifies the add-in board or subsystem.
3043 ***********************************************************************************
3044 */
3045 #define     ARCMSR_ATU_SUBSYSTEM_ID_REG		         0x2E    /*word 0x2F,0x2E*/
3046 /*
3047 ***********************************************************************************
3048 **  Expansion ROM Base Address Register -ERBAR
3049 **  -----------------------------------------------------------------
3050 **  Bit       Default                       Description
3051 **  31:12     00000H                        Expansion ROM Base Address - These bits define the actual location
3052 **						where the Expansion ROM address window resides when addressed from the PCI bus on any 4 Kbyte boundary.
3053 **  11:01     000H                          Reserved
3054 **  00        0 2                           Address Decode Enable - This bit field shows the ROM address
3055 **						decoder is enabled or disabled. When cleared, indicates the address decoder is disabled.
3056 ***********************************************************************************
3057 */
3058 #define     ARCMSR_EXPANSION_ROM_BASE_ADDRESS_REG		         0x30    /*dword 0x33,0x32,0v31,0x30*/
3059 #define     ARCMSR_EXPANSION_ROM_ADDRESS_DECODE_ENABLE   		     0x01
3060 /*
3061 ***********************************************************************************
3062 **  ATU Capabilities Pointer Register - ATU_CAP_PTR
3063 **  -----------------------------------------------------------------
3064 **  Bit Default Description
3065 **  07:00     C0H                           Capability List Pointer - This provides an offset in this function��s configuration space
3066 **						that points to the 80331 PCl Bus Power Management extended capability.
3067 ***********************************************************************************
3068 */
3069 #define     ARCMSR_ATU_CAPABILITY_PTR_REG		     0x34    /*byte*/
3070 /*
3071 ***********************************************************************************
3072 **  Determining Block Sizes for Base Address Registers
3073 **  The required address size and type can be determined by writing ones to a base address register and
3074 **  reading from the registers. By scanning the returned value from the least-significant bit of the base
3075 **  address registers upwards, the programmer can determine the required address space size. The
3076 **  binary-weighted value of the first non-zero bit found indicates the required amount of space.
3077 **  Table 105 describes the relationship between the values read back and the byte sizes the base
3078 **  address register requires.
3079 **  As an example, assume that FFFF.FFFFH is written to the ATU Inbound Base Address Register 0
3080 **  (IABAR0) and the value read back is FFF0.0008H. Bit zero is a zero, so the device requires
3081 **  memory address space. Bit three is one, so the memory does supports prefetching. Scanning
3082 **  upwards starting at bit four, bit twenty is the first one bit found. The binary-weighted value of this
3083 **  bit is 1,048,576, indicated that the device requires 1 Mbyte of memory space.
3084 **  The ATU Base Address Registers and the Expansion ROM Base Address Register use their
3085 **  associated limit registers to enable which bits within the base address register are read/write and
3086 **  which bits are read only (0). This allows the programming of these registers in a manner similar to
3087 **  other PCI devices even though the limit is variable.
3088 **  Table 105. Memory Block Size Read Response
3089 **  Response After Writing all 1s
3090 **  to the Base Address Register
3091 **  Size
3092 **  (Bytes)
3093 **  Response After Writing all 1s
3094 **  to the Base Address Register
3095 **  Size
3096 **  (Bytes)
3097 **  FFFFFFF0H 16 FFF00000H 1 M
3098 **  FFFFFFE0H 32 FFE00000H 2 M
3099 **  FFFFFFC0H 64 FFC00000H 4 M
3100 **  FFFFFF80H 128 FF800000H 8 M
3101 **  FFFFFF00H 256 FF000000H 16 M
3102 **  FFFFFE00H 512 FE000000H 32 M
3103 **  FFFFFC00H 1K FC000000H 64 M
3104 **  FFFFF800H 2K F8000000H 128 M
3105 **  FFFFF000H 4K F0000000H 256 M
3106 **  FFFFE000H 8K E0000000H 512 M
3107 **  FFFFC000H 16K C0000000H 1 G
3108 **  FFFF8000H 32K 80000000H 2 G
3109 **  FFFF0000H 64K
3110 **  00000000H
3111 **  Register not
3112 **  imple-mented,
3113 **  no
3114 **  address
3115 **  space
3116 **  required.
3117 **  FFFE0000H 128K
3118 **  FFFC0000H 256K
3119 **  FFF80000H 512K
3120 **
3121 ***************************************************************************************
3122 */
3123 
3124 /*
3125 ***********************************************************************************
3126 **  ATU Interrupt Line Register - ATUILR
3127 **  -----------------------------------------------------------------
3128 **  Bit       Default                       Description
3129 **  07:00       FFH                         Interrupt Assigned - system-assigned value identifies which system interrupt controller��s interrupt
3130 **                                                               request line connects to the device's PCI interrupt request lines
3131 **								(as specified in the interrupt pin register).
3132 **                                                               A value of FFH signifies ��no connection�� or ��unknown��.
3133 ***********************************************************************************
3134 */
3135 #define     ARCMSR_ATU_INTERRUPT_LINE_REG		     0x3C    /*byte*/
3136 /*
3137 ***********************************************************************************
3138 **  ATU Interrupt Pin Register - ATUIPR
3139 **  -----------------------------------------------------------------
3140 **  Bit       Default                       Description
3141 **  07:00       01H                         Interrupt Used - A value of 01H signifies that the ATU interface unit uses INTA# as the interrupt pin.
3142 ***********************************************************************************
3143 */
3144 #define     ARCMSR_ATU_INTERRUPT_PIN_REG		     0x3D    /*byte*/
3145 /*
3146 ***********************************************************************************
3147 **  ATU Minimum Grant Register - ATUMGNT
3148 **  -----------------------------------------------------------------
3149 **  Bit       Default                       Description
3150 **  07:00       80H                         This register specifies how long a burst period the device needs in increments of 8 PCI clocks.
3151 ***********************************************************************************
3152 */
3153 #define     ARCMSR_ATU_MINIMUM_GRANT_REG		     0x3E    /*byte*/
3154 /*
3155 ***********************************************************************************
3156 **  ATU Maximum Latency Register - ATUMLAT
3157 **  -----------------------------------------------------------------
3158 **  Bit       Default                       Description
3159 **  07:00       00H                         Specifies frequency (how often) the device needs to access the PCI bus
3160 **						in increments of 8 PCI clocks. A zero value indicates the device has no stringent requirement.
3161 ***********************************************************************************
3162 */
3163 #define     ARCMSR_ATU_MAXIMUM_LATENCY_REG		     0x3F    /*byte*/
3164 /*
3165 ***********************************************************************************
3166 **  Inbound Address Translation
3167 **
3168 **  The ATU allows external PCI bus initiators to directly access the internal bus.
3169 **  These PCI bus initiators can read or write 80331 memory-mapped registers or 80331 local memory space.
3170 **  The process of inbound address translation involves two steps:
3171 **  1. Address Detection.
3172 **             �E Determine when the 32-bit PCI address (64-bit PCI address during DACs) is
3173 **                within the address windows defined for the inbound ATU.
3174 **             �E Claim the PCI transaction with medium DEVSEL# timing in the conventional PCI
3175 **                mode and with Decode A DEVSEL# timing in the PCI-X mode.
3176 **  2. Address Translation.
3177 **             �E Translate the 32-bit PCI address (lower 32-bit PCI address during DACs) to a 32-bit 80331 internal bus address.
3178 **  				The ATU uses the following registers in inbound address window 0 translation:
3179 **  				�E Inbound ATU Base Address Register 0
3180 **  				�E Inbound ATU Limit Register 0
3181 **  				�E Inbound ATU Translate Value Register 0
3182 **  				The ATU uses the following registers in inbound address window 2 translation:
3183 **  				�E Inbound ATU Base Address Register 2
3184 **  				�E Inbound ATU Limit Register 2
3185 **  				�E Inbound ATU Translate Value Register 2
3186 **  				The ATU uses the following registers in inbound address window 3 translation:
3187 **  				�E Inbound ATU Base Address Register 3
3188 **  				�E Inbound ATU Limit Register 3
3189 **  				�E Inbound ATU Translate Value Register 3
3190 **    Note: Inbound Address window 1 is not a translate window.
3191 **          Instead, window 1 may be used to allocate host memory for Private Devices.
3192 **          Inbound Address window 3 does not reside in the standard section of the configuration header (offsets 00H - 3CH),
3193 **          thus the host BIOS does not configure window 3.
3194 **          Window 3 is intended to be used as a special window into local memory for private PCI
3195 **          agents controlled by the 80331 in conjunction with the Private Memory Space of the bridge.
3196 **          PCI-to-PCI Bridge in 80331 or
3197 **          Inbound address detection is determined from the 32-bit PCI address,
3198 **          (64-bit PCI address during DACs) the base address register and the limit register.
3199 **          In the case of DACs none of the upper 32-bits of the address is masked during address comparison.
3200 **
3201 **  The algorithm for detection is:
3202 **
3203 **  Equation 1. Inbound Address Detection
3204 **              When (PCI_Address [31:0] & Limit_Register[31:0]) == (Base_Register[31:0] & PCI_Address [63:32]) == Base_Register[63:32] (for DACs only)
3205 **              the PCI Address is claimed by the Inbound ATU.
3206 **
3207 **  			The incoming 32-bit PCI address (lower 32-bits of the address in case of DACs) is bitwise ANDed
3208 **  			with the associated inbound limit register.
3209 **              When the result matches the base register (and upper base address matches upper PCI address in case of DACs),
3210 **              the inbound PCI address is detected as being within the inbound translation window and is claimed by the ATU.
3211 **
3212 **  			Note:   The first 4 Kbytes of the ATU inbound address translation window 0 are reserved for the Messaging Unit.
3213 **  					Once the transaction is claimed, the address must be translated from a PCI address to a 32-bit
3214 **  					internal bus address. In case of DACs upper 32-bits of the address is simply discarded and only the
3215 **  					lower 32-bits are used during address translation.
3216 **              		The algorithm is:
3217 **
3218 **
3219 **  Equation 2. Inbound Translation
3220 **              Intel I/O processor Internal Bus Address=(PCI_Address[31:0] & ~Limit_Register[31:0]) | ATU_Translate_Value_Register[31:0].
3221 **
3222 **  			The incoming 32-bit PCI address (lower 32-bits in case of DACs) is first bitwise ANDed with the
3223 **  			bitwise inverse of the limit register. This result is bitwise ORed with the ATU Translate Value and
3224 **  			the result is the internal bus address. This translation mechanism is used for all inbound memory
3225 **  			read and write commands excluding inbound configuration read and writes.
3226 **  			In the PCI mode for inbound memory transactions, the only burst order supported is Linear
3227 **  			Incrementing. For any other burst order, the ATU signals a Disconnect after the first data phase.
3228 **  			The PCI-X supports linear incrementing only, and hence above situation is not encountered in the PCI-X mode.
3229 **  example:
3230 **  	    Register Values
3231 **  		         Base_Register=3A00 0000H
3232 **  		        Limit_Register=FF80 0000H (8 Mbyte limit value)
3233 **  		        Value_Register=B100 0000H
3234 **  		        Inbound Translation Window ranges from 3A00 0000H to 3A7F FFFFH (8 Mbytes)
3235 **
3236 **  		Address Detection (32-bit address)
3237 **
3238 **  						PCI_Address & Limit_Register == Base_Register
3239 **  						3A45 012CH  &   FF80 0000H   ==  3A00 0000H
3240 **
3241 **  					ANS: PCI_Address is in the Inbound Translation Window
3242 **  		Address Translation (to get internal bus address)
3243 **
3244 **  						IB_Address=(PCI_Address & ~Limit_Register) | Value_Reg
3245 **  						IB_Address=(3A45 012CH & 007F FFFFH) | B100 0000H
3246 **
3247 **  					ANS:IB_Address=B145 012CH
3248 ***********************************************************************************
3249 */
3250 
3251 /*
3252 ***********************************************************************************
3253 **  Inbound ATU Limit Register 0 - IALR0
3254 **
3255 **  Inbound address translation for memory window 0 occurs for data transfers occurring from the PCI
3256 **  bus (originated from the PCI bus) to the 80331 internal bus. The address translation block converts
3257 **  PCI addresses to internal bus addresses.
3258 **  The 80331 translate value register��s programmed value must be naturally aligned with the base
3259 **  address register��s programmed value. The limit register is used as a mask; thus, the lower address
3260 **  bits programmed into the 80331 translate value register are invalid. Refer to the PCI Local Bus
3261 **  Specification, Revision 2.3 for additional information on programming base address registers.
3262 **  Bits 31 to 12 within the IALR0 have a direct effect on the IABAR0 register, bits 31 to 12, with a
3263 **  one to one correspondence. A value of 0 in a bit within the IALR0 makes the corresponding bit
3264 **  within the IABAR0 a read only bit which always returns 0. A value of 1 in a bit within the IALR0
3265 **  makes the corresponding bit within the IABAR0 read/write from PCI. Note that a consequence of
3266 **  this programming scheme is that unless a valid value exists within the IALR0, all writes to the
3267 **  IABAR0 has no effect since a value of all zeros within the IALR0 makes the IABAR0 a read only  register.
3268 **  -----------------------------------------------------------------
3269 **  Bit       Default                       Description
3270 **  31:12     FF000H                        Inbound Translation Limit 0 - This readback value determines the memory block size required for
3271 **                                          inbound memory window 0 of the address translation unit. This defaults to an inbound window of 16MB.
3272 **  11:00       000H                        Reserved
3273 ***********************************************************************************
3274 */
3275 #define     ARCMSR_INBOUND_ATU_LIMIT0_REG		     0x40    /*dword 0x43,0x42,0x41,0x40*/
3276 /*
3277 ***********************************************************************************
3278 **  Inbound ATU Translate Value Register 0 - IATVR0
3279 **
3280 **  The Inbound ATU Translate Value Register 0 (IATVR0) contains the internal bus address used to
3281 **  convert PCI bus addresses. The converted address is driven on the internal bus as a result of the
3282 **  inbound ATU address translation.
3283 **  -----------------------------------------------------------------
3284 **  Bit       Default                       Description
3285 **  31:12     FF000H                        Inbound ATU Translation Value 0 - This value is used to convert the PCI address to internal bus addresses.
3286 **                                          This value must be 64-bit aligned on the internal bus.
3287 **						The default address allows the ATU to access the internal 80331 memory-mapped registers.
3288 **  11:00       000H                        Reserved
3289 ***********************************************************************************
3290 */
3291 #define     ARCMSR_INBOUND_ATU_TRANSLATE_VALUE0_REG		     0x44    /*dword 0x47,0x46,0x45,0x44*/
3292 /*
3293 ***********************************************************************************
3294 **  Expansion ROM Limit Register - ERLR
3295 **
3296 **  The Expansion ROM Limit Register (ERLR) defines the block size of addresses the ATU defines
3297 **  as Expansion ROM address space. The block size is programmed by writing a value into the ERLR.
3298 **  Bits 31 to 12 within the ERLR have a direct effect on the ERBAR register, bits 31 to 12, with a one
3299 **  to one correspondence. A value of 0 in a bit within the ERLR makes the corresponding bit within
3300 **  the ERBAR a read only bit which always returns 0. A value of 1 in a bit within the ERLR makes
3301 **  the corresponding bit within the ERBAR read/write from PCI.
3302 **  -----------------------------------------------------------------
3303 **  Bit       Default                       Description
3304 **  31:12     000000H                       Expansion ROM Limit - Block size of memory required for the Expansion ROM translation unit. Default
3305 **                         value is 0, which indicates no Expansion ROM address space and all bits within the ERBAR are read only with a value of 0.
3306 **  11:00        000H                       Reserved.
3307 ***********************************************************************************
3308 */
3309 #define     ARCMSR_EXPANSION_ROM_LIMIT_REG		          0x48    /*dword 0x4B,0x4A,0x49,0x48*/
3310 /*
3311 ***********************************************************************************
3312 **  Expansion ROM Translate Value Register - ERTVR
3313 **
3314 **  The Expansion ROM Translate Value Register contains the 80331 internal bus address which the
3315 **  ATU converts the PCI bus access. This address is driven on the internal bus as a result of the
3316 **  Expansion ROM address translation.
3317 **  -----------------------------------------------------------------
3318 **  Bit       Default                       Description
3319 **  31:12     00000H                        Expansion ROM Translation Value - Used to convert PCI addresses to 80331 internal bus addresses
3320 **                          for Expansion ROM accesses. The Expansion ROM address translation value must be word aligned on the internal bus.
3321 **  11:00       000H                        Reserved
3322 ***********************************************************************************
3323 */
3324 #define     ARCMSR_EXPANSION_ROM_TRANSLATE_VALUE_REG		          0x4C    /*dword 0x4F,0x4E,0x4D,0x4C*/
3325 /*
3326 ***********************************************************************************
3327 **  Inbound ATU Limit Register 1 - IALR1
3328 **
3329 **  Bits 31 to 12 within the IALR1 have a direct effect on the IABAR1 register, bits 31 to 12, with a
3330 **  one to one correspondence. A value of 0 in a bit within the IALR1 makes the corresponding bit
3331 **  within the IABAR1 a read only bit which always returns 0. A value of 1 in a bit within the IALR1
3332 **  makes the corresponding bit within the IABAR1 read/write from PCI. Note that a consequence of
3333 **  this programming scheme is that unless a valid value exists within the IALR1, all writes to the
3334 **  IABAR1 has no effect since a value of all zeros within the IALR1 makes the IABAR1 a read only
3335 **  register.
3336 **  The inbound memory window 1 is used merely to allocate memory on the PCI bus. The ATU does
3337 **  not process any PCI bus transactions to this memory range.
3338 **  Warning: The ATU does not claim any PCI accesses that fall within the range defined by IABAR1,
3339 **  IAUBAR1, and IALR1.
3340 **  -----------------------------------------------------------------
3341 **  Bit       Default                       Description
3342 **  31:12     00000H                        Inbound Translation Limit 1 - This readback value determines the memory block size
3343 **						required for the ATUs memory window 1.
3344 **  11:00 000H Reserved
3345 ***********************************************************************************
3346 */
3347 #define     ARCMSR_INBOUND_ATU_LIMIT1_REG		          0x50    /*dword 0x53,0x52,0x51,0x50*/
3348 /*
3349 ***********************************************************************************
3350 **  Inbound ATU Limit Register 2 - IALR2
3351 **
3352 **  Inbound address translation for memory window 2 occurs for data transfers occurring from the PCI
3353 **  bus (originated from the PCI bus) to the 80331 internal bus. The address translation block converts
3354 **  PCI addresses to internal bus addresses.
3355 **  The inbound translation base address for inbound window 2 is specified in Section 3.10.15. When
3356 **  determining block size requirements �X as described in Section 3.10.21 �X the translation limit
3357 **  register provides the block size requirements for the base address register. The remaining registers
3358 **  used for performing address translation are discussed in Section 3.2.1.1.
3359 **  The 80331 translate value register��s programmed value must be naturally aligned with the base
3360 **  address register��s programmed value. The limit register is used as a mask; thus, the lower address
3361 **  bits programmed into the 80331 translate value register are invalid. Refer to the PCI Local Bus
3362 **  Specification, Revision 2.3 for additional information on programming base address registers.
3363 **  Bits 31 to 12 within the IALR2 have a direct effect on the IABAR2 register, bits 31 to 12, with a
3364 **  one to one correspondence. A value of 0 in a bit within the IALR2 makes the corresponding bit
3365 **  within the IABAR2 a read only bit which always returns 0. A value of 1 in a bit within the IALR2
3366 **  makes the corresponding bit within the IABAR2 read/write from PCI. Note that a consequence of
3367 **  this programming scheme is that unless a valid value exists within the IALR2, all writes to the
3368 **  IABAR2 has no effect since a value of all zeros within the IALR2 makes the IABAR2 a read only
3369 **  register.
3370 **  -----------------------------------------------------------------
3371 **  Bit       Default                       Description
3372 **  31:12     00000H                        Inbound Translation Limit 2 - This readback value determines the memory block size
3373 **						required for the ATUs memory window 2.
3374 **  11:00       000H                        Reserved
3375 ***********************************************************************************
3376 */
3377 #define     ARCMSR_INBOUND_ATU_LIMIT2_REG		          0x54    /*dword 0x57,0x56,0x55,0x54*/
3378 /*
3379 ***********************************************************************************
3380 **  Inbound ATU Translate Value Register 2 - IATVR2
3381 **
3382 **  The Inbound ATU Translate Value Register 2 (IATVR2) contains the internal bus address used to
3383 **  convert PCI bus addresses. The converted address is driven on the internal bus as a result of the
3384 **  inbound ATU address translation.
3385 **  -----------------------------------------------------------------
3386 **  Bit       Default                       Description
3387 **  31:12     00000H                        Inbound ATU Translation Value 2 - This value is used to convert the PCI address to internal bus addresses.
3388 **                                                                            This value must be 64-bit aligned on the internal bus.
3389 **										The default address allows the ATU to access the internal 80331 **	**										memory-mapped registers.
3390 **  11:00       000H                        Reserved
3391 ***********************************************************************************
3392 */
3393 #define     ARCMSR_INBOUND_ATU_TRANSLATE_VALUE2_REG		          0x58    /*dword 0x5B,0x5A,0x59,0x58*/
3394 /*
3395 ***********************************************************************************
3396 **  Outbound I/O Window Translate Value Register - OIOWTVR
3397 **
3398 **  The Outbound I/O Window Translate Value Register (OIOWTVR) contains the PCI I/O address
3399 **  used to convert the internal bus access to a PCI address. This address is driven on the PCI bus as a
3400 **  result of the outbound ATU address translation.
3401 **  The I/O window is from 80331 internal bus address 9000 000H to 9000 FFFFH with the fixed
3402 **  length of 64 Kbytes.
3403 **  -----------------------------------------------------------------
3404 **  Bit       Default                       Description
3405 **  31:16     0000H                         Outbound I/O Window Translate Value - Used to convert internal bus addresses to PCI addresses.
3406 **  15:00     0000H                         Reserved
3407 ***********************************************************************************
3408 */
3409 #define     ARCMSR_OUTBOUND_IO_WINDOW_TRANSLATE_VALUE_REG		          0x5C    /*dword 0x5F,0x5E,0x5D,0x5C*/
3410 /*
3411 ***********************************************************************************
3412 **  Outbound Memory Window Translate Value Register 0 -OMWTVR0
3413 **
3414 **  The Outbound Memory Window Translate Value Register 0 (OMWTVR0) contains the PCI
3415 **  address used to convert 80331 internal bus addresses for outbound transactions. This address is
3416 **  driven on the PCI bus as a result of the outbound ATU address translation.
3417 **  The memory window is from internal bus address 8000 000H to 83FF FFFFH with the fixed length
3418 **  of 64 Mbytes.
3419 **  -----------------------------------------------------------------
3420 **  Bit       Default                       Description
3421 **  31:26       00H                         Outbound MW Translate Value - Used to convert 80331 internal bus addresses to PCI addresses.
3422 **  25:02     00 0000H                      Reserved
3423 **  01:00      00 2                         Burst Order - This bit field shows the address sequence during a memory burst.
3424 **								Only linear incrementing mode is supported.
3425 ***********************************************************************************
3426 */
3427 #define     ARCMSR_OUTBOUND_MEMORY_WINDOW_TRANSLATE_VALUE0_REG		          0x60    /*dword 0x63,0x62,0x61,0x60*/
3428 /*
3429 ***********************************************************************************
3430 **  Outbound Upper 32-bit Memory Window Translate Value Register 0 - OUMWTVR0
3431 **
3432 **  The Outbound Upper 32-bit Memory Window Translate Value Register 0 (OUMWTVR0) defines
3433 **  the upper 32-bits of address used during a dual address cycle. This enables the outbound ATU to
3434 **  directly address anywhere within the 64-bit host address space. When this register is all-zero, then
3435 **  a SAC is generated on the PCI bus.
3436 **  The memory window is from internal bus address 8000 000H to 83FF FFFFH with the fixed
3437 **  length of 64 Mbytes.
3438 **  -----------------------------------------------------------------
3439 **  Bit       Default                       Description
3440 **  31:00     0000 0000H                    These bits define the upper 32-bits of address driven during the dual address cycle (DAC).
3441 ***********************************************************************************
3442 */
3443 #define     ARCMSR_OUTBOUND_UPPER32_MEMORY_WINDOW_TRANSLATE_VALUE0_REG		          0x64    /*dword 0x67,0x66,0x65,0x64*/
3444 /*
3445 ***********************************************************************************
3446 **  Outbound Memory Window Translate Value Register 1 -OMWTVR1
3447 **
3448 **  The Outbound Memory Window Translate Value Register 1 (OMWTVR1) contains the PCI
3449 **  address used to convert 80331 internal bus addresses for outbound transactions. This address is
3450 **  driven on the PCI bus as a result of the outbound ATU address translation.
3451 **  The memory window is from internal bus address 8400 000H to 87FF FFFFH with the fixed length
3452 **  of 64 Mbytes.
3453 **  -----------------------------------------------------------------
3454 **  Bit       Default                       Description
3455 **  31:26       00H                         Outbound MW Translate Value - Used to convert 80331 internal bus addresses to PCI addresses.
3456 **  25:02     00 0000H                      Reserved
3457 **  01:00       00 2                        Burst Order - This bit field shows the address sequence during a memory burst.
3458 **						Only linear incrementing mode is supported.
3459 ***********************************************************************************
3460 */
3461 #define     ARCMSR_OUTBOUND_MEMORY_WINDOW_TRANSLATE_VALUE1_REG		          0x68    /*dword 0x6B,0x6A,0x69,0x68*/
3462 /*
3463 ***********************************************************************************
3464 **  Outbound Upper 32-bit Memory Window Translate Value Register 1 - OUMWTVR1
3465 **
3466 **  The Outbound Upper 32-bit Memory Window Translate Value Register 1 (OUMWTVR1) defines
3467 **  the upper 32-bits of address used during a dual address cycle. This enables the outbound ATU to
3468 **  directly address anywhere within the 64-bit host address space. When this register is all-zero, then
3469 **  a SAC is generated on the PCI bus.
3470 **  The memory window is from internal bus address 8400 000H to 87FF FFFFH with the fixed length
3471 **  of 64 Mbytes.
3472 **  -----------------------------------------------------------------
3473 **  Bit       Default                       Description
3474 **  31:00    0000 0000H                     These bits define the upper 32-bits of address driven during the dual address cycle (DAC).
3475 ***********************************************************************************
3476 */
3477 #define     ARCMSR_OUTBOUND_UPPER32_MEMORY_WINDOW_TRANSLATE_VALUE1_REG		          0x6C    /*dword 0x6F,0x6E,0x6D,0x6C*/
3478 /*
3479 ***********************************************************************************
3480 **  Outbound Upper 32-bit Direct Window Translate Value Register - OUDWTVR
3481 **
3482 **  The Outbound Upper 32-bit Direct Window Translate Value Register (OUDWTVR) defines the
3483 **  upper 32-bits of address used during a dual address cycle for the transactions via Direct Addressing
3484 **  Window. This enables the outbound ATU to directly address anywhere within the 64-bit host
3485 **  address space. When this register is all-zero, then a SAC is generated on the PCI bus.
3486 **  -----------------------------------------------------------------
3487 **  Bit       Default                       Description
3488 **  31:00    0000 0000H                     These bits define the upper 32-bits of address driven during the dual address cycle (DAC).
3489 ***********************************************************************************
3490 */
3491 #define     ARCMSR_OUTBOUND_UPPER32_DIRECT_WINDOW_TRANSLATE_VALUE_REG		          0x78    /*dword 0x7B,0x7A,0x79,0x78*/
3492 /*
3493 ***********************************************************************************
3494 **  ATU Configuration Register - ATUCR
3495 **
3496 **  The ATU Configuration Register controls the outbound address translation for address translation
3497 **  unit. It also contains bits for Conventional PCI Delayed Read Command (DRC) aliasing, discard
3498 **  timer status, SERR# manual assertion, SERR# detection interrupt masking, and ATU BIST
3499 **  interrupt enabling.
3500 **  -----------------------------------------------------------------
3501 **  Bit       Default                       Description
3502 **  31:20       00H                         Reserved
3503 **  19          0 2                         ATU DRC Alias - when set, the ATU does not distinguish read commands when attempting to match a
3504 **  			current PCI read transaction with read data enqueued within the DRC buffer. When clear, a current read
3505 **  			transaction must have the exact same read command as the DRR for the ATU to deliver DRC data. Not
3506 **  			applicable in the PCI-X mode.
3507 **  18          0 2                         Direct Addressing Upper 2Gbytes Translation Enable - When set,
3508 **						with Direct Addressing enabled (bit 7 of the ATUCR set),
3509 **							the ATU forwards internal bus cycles with an address between 0000.0040H and
3510 **								7FFF.FFFFH to the PCI bus with bit 31 of the address set (8000.0000H - FFFF.FFFFH).
3511 **									 When clear, no translation occurs.
3512 **  17          0 2                         Reserved
3513 **  16          0 2                         SERR# Manual Assertion - when set, the ATU asserts SERR# for one clock on the PCI interface. Until
3514 **						cleared, SERR# may not be manually asserted again. Once cleared, operation proceeds as specified.
3515 **  15          0 2                         ATU Discard Timer Status - when set, one of the 4 discard timers within the ATU has expired and
3516 ** 						discarded the delayed completion transaction within the queue. When clear, no timer has expired.
3517 **  14:10    00000 2                        Reserved
3518 **  09          0 2                         SERR# Detected Interrupt Enable - When set, the Intel XScale core is signalled an HPI# interrupt
3519 **						when the ATU detects that SERR# was asserted. When clear,
3520 **							the Intel XScale core is not interrupted when SERR# is detected.
3521 **  08          0 2                         Direct Addressing Enable - Setting this bit enables direct outbound addressing through the ATU.
3522 **  						Internal bus cycles with an address between 0000.0040H and 7FFF.FFFFH automatically forwards to
3523 **  						the PCI bus with or without translation of address bit 31 based on the setting of bit 18 of
3524 **							the ATUCR.
3525 **  07:04    0000 2                         Reserved
3526 **  03          0 2                         ATU BIST Interrupt Enable - When set, enables an interrupt to the Intel XScale core when the start
3527 **						BIST bit is set in the ATUBISTR register. This bit is also reflected as the BIST Capable bit 7
3528 **							in the ATUBISTR register.
3529 **  02          0 2                         Reserved
3530 **  01          0 2                         Outbound ATU Enable - When set, enables the outbound address translation unit.
3531 **						When cleared, disables the outbound ATU.
3532 **  00          0 2                         Reserved
3533 ***********************************************************************************
3534 */
3535 #define     ARCMSR_ATU_CONFIGURATION_REG		          0x80    /*dword 0x83,0x82,0x81,0x80*/
3536 /*
3537 ***********************************************************************************
3538 **  PCI Configuration and Status Register - PCSR
3539 **
3540 **  The PCI Configuration and Status Register has additional bits for controlling and monitoring
3541 **  various features of the PCI bus interface.
3542 **  -----------------------------------------------------------------
3543 **  Bit       Default                       Description
3544 **  31:19      0000H                        Reserved
3545 **  18          0 2                         Detected Address or Attribute Parity Error - set when a parity error is detected during either the address
3546 **  					or attribute phase of a transaction on the PCI bus even when the ATUCMD register Parity Error
3547 **  					Response bit is cleared. Set under the following conditions:
3548 **  					�E Any Address or Attribute (PCI-X Only) Parity Error on the Bus (including one generated by the ATU).
3549 **  17:16  Varies with
3550 **  										external state
3551 **  										of DEVSEL#,
3552 **  										STOP#, and
3553 **  										TRDY#,
3554 **  										during
3555 **  										P_RST#
3556 **  										PCI-X capability - These two bits define the mode of
3557 **  										the PCI bus (conventional or PCI-X) as well as the
3558 **  										operating frequency in the case of PCI-X mode.
3559 **  										00 - Conventional PCI mode
3560 **  										01 - PCI-X 66
3561 **  										10 - PCI-X 100
3562 **  										11 - PCI-X 133
3563 **  										As defined by the PCI-X Addendum to the PCI Local Bus Specification,
3564 **  										Revision 1.0a, the operating
3565 **  										mode is determined by an initialization pattern on the PCI bus during
3566 **  										P_RST# assertion:
3567 **  										DEVSEL# STOP# TRDY# Mode
3568 **  										Deasserted Deasserted Deasserted Conventional
3569 **  										Deasserted Deasserted Asserted PCI-X 66
3570 **  										Deasserted Asserted Deasserted PCI-X 100
3571 **  										Deasserted Asserted Asserted PCI-X 133
3572 **  										All other patterns are reserved.
3573 **  15          0 2
3574 **  										Outbound Transaction Queue Busy:
3575 **  										    0=Outbound Transaction Queue Empty
3576 **  										    1=Outbound Transaction Queue Busy
3577 **  14          0 2
3578 **  										Inbound Transaction Queue Busy:
3579 **  										    0=Inbound Transaction Queue Empty
3580 **  										    1=Inbound Transaction Queue Busy
3581 **  13          0 2                         Reserved.
3582 **  12          0 2								Discard Timer Value - This bit controls the time-out value
3583 **  										for the four discard timers attached to the queues holding read data.
3584 **                                                         A value of 0 indicates the time-out value is 2 15 clocks.
3585 **                                                         A value of 1 indicates the time-out value is 2 10 clocks.
3586 **  11          0 2                         Reserved.
3587 **  10      Varies with
3588 **  										external state
3589 **  										of M66EN
3590 **  										during
3591 **  										P_RST#
3592 **  							Bus Operating at 66 MHz - When set, the interface has been initialized to function at 66 MHz in
3593 **  										Conventional PCI mode by the assertion of M66EN during bus initialization.
3594 **  										When clear, the interface
3595 **  										has been initialized as a 33 MHz bus.
3596 **  		NOTE: When PCSR bits 17:16 are not equal to zero, then this bit is meaningless since the 80331 is operating in PCI-X mode.
3597 **  09          0 2                         Reserved
3598 **  08      Varies with
3599 **  										external state
3600 **  										of REQ64#
3601 **  										during
3602 **  										P_RST#
3603 **  										PCI Bus 64-Bit Capable - When clear, the PCI bus interface has been
3604 **  										configured as 64-bit capable by
3605 **  										the assertion of REQ64# on the rising edge of P_RST#. When set,
3606 **  										the PCI interface is configured as
3607 **  										32-bit only.
3608 **  07:06      00 2                         Reserved.
3609 **  05         0 2   						Reset Internal Bus - This bit controls the reset of the Intel XScale core
3610 **  								and all units on the internal
3611 **  								bus. In addition to the internal bus initialization,
3612 **  								this bit triggers the assertion of the M_RST# pin for
3613 **  								initialization of registered DIMMs. When set:
3614 **  								When operating in the conventional PCI mode:
3615 **  								�E All current PCI transactions being mastered by the ATU completes,
3616 **  								and the ATU master interfaces
3617 **  								proceeds to an idle state. No additional transactions is mastered by these units
3618 **  								until the internal bus reset is complete.
3619 **  								�E All current transactions being slaved by the ATU on either the PCI bus
3620 **  								or the internal bus
3621 **  								completes, and the ATU target interfaces proceeds to an idle state.
3622 **  								All future slave transactions master aborts,
3623 **  								with the exception of the completion cycle for the transaction that set the Reset
3624 **  								Internal Bus bit in the PCSR.
3625 **  								�E When the value of the Core Processor Reset bit in the PCSR (upon P_RST# assertion)
3626 **  								is set, the Intel XScale core is held in reset when the internal bus reset is complete.
3627 **  								�E The ATU ignores configuration cycles, and they appears as master aborts for: 32
3628 **  								Internal Bus clocks.
3629 **  								�E The 80331 hardware clears this bit after the reset operation completes.
3630 **  								When operating in the PCI-X mode:
3631 **  								The ATU hardware responds the same as in Conventional PCI-X mode.
3632 **  								However, this may create a problem in PCI-X mode for split requests in
3633 **  								that there may still be an outstanding split completion that the
3634 **  								ATU is either waiting to receive (Outbound Request) or initiate
3635 **  								(Inbound Read Request). For a cleaner
3636 **  								internal bus reset, host software can take the following steps prior
3637 **  								to asserting Reset Internal bus:
3638 **  					1. Clear the Bus Master (bit 2 of the ATUCMD) and the Memory Enable (bit 1 of the ATUCMD) bits in
3639 **  						the ATUCMD. This ensures that no new transactions, either outbound or inbound are enqueued.
3640 **  					2. Wait for both the Outbound (bit 15 of the PCSR) and Inbound Read (bit 14 of the PCSR) Transaction
3641 **  						queue busy bits to be clear.
3642 **  					3. Set the Reset Internal Bus bit
3643 **  	As a result, the ATU hardware resets the internal bus using the same logic as in conventional mode,
3644 **  	however the user is now assured that the ATU no longer has any pending inbound or outbound split
3645 **  	completion transactions.
3646 **  	NOTE: Since the Reset Internal Bus bit is set using an inbound configuration cycle, the user is
3647 **  	guaranteed that any prior configuration cycles have properly completed since there is only a one
3648 **  	deep transaction queue for configuration transaction requests. The ATU sends the appropriate
3649 **  	Split Write Completion Message to the Requester prior to the onset of Internal Bus Reset.
3650 **  04      0 2						        Bus Master Indicator Enable: Provides software control for the
3651 **  								Bus Master Indicator signal P_BMI used
3652 **  		for external RAIDIOS logic control of private devices. Only valid when operating with the bridge and
3653 **  		central resource/arbiter disabled (BRG_EN =low, ARB_EN=low).
3654 **  03		Varies with external state of PRIVDEV during
3655 **  							P_RST#
3656 **  			Private Device Enable - This bit indicates the state of the reset strap which enables the private device
3657 **  			control mechanism within the PCI-to-PCI Bridge SISR configuration register.
3658 **  			0=Private Device control Disabled - SISR register bits default to zero
3659 **  			1=Private Device control Enabled - SISR register bits default to one
3660 **  	02	Varies with external state of RETRY during P_RST#
3661 **  			Configuration Cycle Retry - When this bit is set, the PCI interface of the 80331 responds to all
3662 **  			configuration cycles with a Retry condition. When clear, the 80331 responds to the appropriate
3663 **  			configuration cycles.
3664 **  		The default condition for this bit is based on the external state of the RETRY pin at the rising edge of
3665 **  			P_RST#. When the external state of the pin is high, the bit is set. When the external state of the pin is
3666 **  			low, the bit is cleared.
3667 **  01		Varies with external state of CORE_RST# during P_RST#
3668 **  			Core Processor Reset - This bit is set to its default value by the hardware when either P_RST# is
3669 **  			asserted or the Reset Internal Bus bit in PCSR is set. When this bit is set, the Intel XScale core is
3670 **  			being held in reset. Software cannot set this bit. Software is required to clear this bit to deassert Intel
3671 **  			XScale  core reset.
3672 **  			The default condition for this bit is based on the external state of the CORE_RST# pin at the rising edge
3673 **  			of P_RST#. When the external state of the pin is low, the bit is set. When the external state of the pin is
3674 **  			high, the bit is clear.
3675 **  00		Varies with external state of PRIVMEM during P_RST#
3676 **  			Private Memory Enable - This bit indicates the state of the reset strap which enables the private device
3677 **  			control mechanism within the PCI-to-PCI Bridge SDER configuration register.
3678 **  			0=Private Memory control Disabled - SDER register bit 2 default to zero
3679 **  			1=Private Memory control Enabled - SDER register bits 2 default to one
3680 ***********************************************************************************
3681 */
3682 #define     ARCMSR_PCI_CONFIGURATION_STATUS_REG		          0x84    /*dword 0x87,0x86,0x85,0x84*/
3683 /*
3684 ***********************************************************************************
3685 **  ATU Interrupt Status Register - ATUISR
3686 **
3687 **  The ATU Interrupt Status Register is used to notify the core processor of the source of an ATU
3688 **  interrupt. In addition, this register is written to clear the source of the interrupt to the interrupt unit
3689 **  of the 80331. All bits in this register are Read/Clear.
3690 **  Bits 4:0 are a direct reflection of bits 14:11 and bit 8 (respectively) of the ATU Status Register
3691 **  (these bits are set at the same time by hardware but need to be cleared independently). Bit 7 is set
3692 **  by an error associated with the internal bus of the 80331. Bit 8 is for software BIST. The
3693 **  conditions that result in an ATU interrupt are cleared by writing a 1 to the appropriate bits in this
3694 **  register.
3695 **  Note: Bits 4:0, and bits 15 and 13:7 can result in an interrupt being driven to the Intel XScale core.
3696 **  -----------------------------------------------------------------
3697 **  Bit       Default                       Description
3698 **  31:18      0000H                        Reserved
3699 **  17          0 2                         VPD Address Register Updated - This bit is set when a PCI bus configuration write occurs to the VPDAR
3700 **  														register. Configuration register writes to the VPDAR does NOT result in bit 15 also being set. When set,
3701 **  														this bit results in the assertion of the ATU Configure Register Write Interrupt.
3702 **  16          0 2                         Reserved
3703 **  15          0 2                         ATU Configuration Write - This bit is set when a PCI bus configuration write occurs to any ATU register.
3704 **                                                          When set, this bit results in the assertion of the ATU Configure Register Write Interrupt.
3705 **  14          0 2                         ATU Inbound Memory Window 1 Base Updated - This bit is set when a PCI bus configuration write
3706 **  														occurs to either the IABAR1 register or the IAUBAR1 register. Configuration register writes to these
3707 **  														registers deos NOT result in bit 15 also being set. When set, this bit results in the assertion of the ATU
3708 **  														Configure Register Write Interrupt.
3709 **  13          0 2                         Initiated Split Completion Error Message - This bit is set when the device initiates a Split Completion
3710 **                                                          Message on the PCI Bus with the Split Completion Error attribute bit set.
3711 **  12          0 2                         Received Split Completion Error Message - This bit is set when the device receives a Split Completion
3712 **                                                          Message from the PCI Bus with the Split Completion Error attribute bit set.
3713 **  11          0 2                         Power State Transition - When the Power State Field of the ATU Power Management Control/Status
3714 **  														Register is written to transition the ATU function Power State from D0 to D3, D0 to D1, or D3 to D0 and
3715 **  														the ATU Power State Transition Interrupt mask bit is cleared, this bit is set.
3716 **  10          0 2                         P_SERR# Asserted - set when P_SERR# is asserted on the PCI bus by the ATU.
3717 **  09          0 2                         Detected Parity Error - set when a parity error is detected on the PCI bus even when the ATUCMD
3718 **  														register��s Parity Error Response bit is cleared. Set under the following conditions:
3719 **  														�E Write Data Parity Error when the ATU is a target (inbound write).
3720 **  														�E Read Data Parity Error when the ATU is an initiator (outbound read).
3721 **  														�E Any Address or Attribute (PCI-X Only) Parity Error on the Bus.
3722 **  08          0 2                         ATU BIST Interrupt - When set, generates the ATU BIST Start Interrupt and indicates the host processor
3723 **  														has set the Start BIST bit (ATUBISTR register bit 6), when the ATU BIST interrupt is enabled (ATUCR
3724 **  														register bit 3). The Intel XScale core can initiate the software BIST and store the result in ATUBISTR
3725 **  														register bits 3:0.
3726 **  														Configuration register writes to the ATUBISTR does NOT result in bit 15 also being set or the assertion
3727 **  														of the ATU Configure Register Write Interrupt.
3728 **  07          0 2                         Internal Bus Master Abort - set when a transaction initiated by the ATU internal bus initiator interface ends in a Master-abort.
3729 **  06:05      00 2                         Reserved.
3730 **  04          0 2                         P_SERR# Detected - set when P_SERR# is detected on the PCI bus by the ATU.
3731 **  03          0 2                         PCI Master Abort - set when a transaction initiated by the ATU PCI initiator interface ends in a Master-abort.
3732 **  02          0 2                         PCI Target Abort (master) - set when a transaction initiated by the ATU PCI master interface ends in a Target-abort.
3733 **  01          0 2                         PCI Target Abort (target) - set when the ATU interface, acting as a target, terminates the transaction on the PCI bus with a target abort.
3734 **  00          0 2                         PCI Master Parity Error - Master Parity Error - The ATU interface sets this bit under the following
3735 **  														conditions:
3736 **  														�E The ATU asserted PERR# itself or the ATU observed PERR# asserted.
3737 **  														�E And the ATU acted as the requester for the operation in which the error occurred.
3738 **  														�E And the ATUCMD register��s Parity Error Response bit is set
3739 **  														�E Or (PCI-X Mode Only) the ATU received a Write Data Parity Error Message
3740 **  														�E And the ATUCMD register��s Parity Error Response bit is set
3741 ***********************************************************************************
3742 */
3743 #define     ARCMSR_ATU_INTERRUPT_STATUS_REG		          0x88    /*dword 0x8B,0x8A,0x89,0x88*/
3744 /*
3745 ***********************************************************************************
3746 **  ATU Interrupt Mask Register - ATUIMR
3747 **
3748 **  The ATU Interrupt Mask Register contains the control bit to enable and disable interrupts
3749 **  generated by the ATU.
3750 **  -----------------------------------------------------------------
3751 **  Bit       Default                       Description
3752 **  31:15     0 0000H                       Reserved
3753 **  14        0 2                           VPD Address Register Updated Mask - Controls the setting of bit 17 of the ATUISR and generation of the
3754 **  					ATU Configuration Register Write interrupt when a PCI bus write occurs to the VPDAR register.
3755 **  					0=Not Masked
3756 **  					1=Masked
3757 **  13        0 2                           Reserved
3758 **  12        0 2                           Configuration Register Write Mask - Controls the setting of bit 15 of the ATUISR and generation of the
3759 **  					ATU Configuration Register Write interrupt when a PCI bus write occurs to any ATU configuration register
3760 **  					except those covered by mask bit 11 and bit 14 of this register, and ATU BIST enable bit 3 of the ATUCR.
3761 **  										0=Not Masked
3762 **  										1=Masked
3763 **  11        1 2                           ATU Inbound Memory Window 1 Base Updated Mask - Controls the setting of bit 14 of the ATUISR and
3764 **  					generation of the ATU Configuration Register Write interrupt when a PCI bus write occurs to either the
3765 **  														IABAR1 register or the IAUBAR1 register.
3766 **  														0=Not Masked
3767 **  														1=Masked
3768 **  10        0 2                           Initiated Split Completion Error Message Interrupt Mask - Controls the setting of bit 13 of the ATUISR and
3769 **  					generation of the ATU Error interrupt when the ATU initiates a Split Completion Error Message.
3770 **  														0=Not Masked
3771 **  														1=Masked
3772 **  09        0 2                           Received Split Completion Error Message Interrupt Mask- Controls the setting of bit 12 of the ATUISR
3773 **  					and generation of the ATU Error interrupt when a Split Completion Error Message results in bit 29 of the
3774 **  					PCIXSR being set.
3775 **  					0=Not Masked
3776 **  					1=Masked
3777 **  08        1 2                           Power State Transition Interrupt Mask - Controls the setting of bit 12 of the ATUISR and generation of the
3778 **  					ATU Error interrupt when ATU Power Management Control/Status Register is written to transition the
3779 **  					ATU Function Power State from D0 to D3, D0 to D1, D1 to D3 or D3 to D0.
3780 **  														0=Not Masked
3781 **  														1=Masked
3782 **  07        0 2                           ATU Detected Parity Error Interrupt Mask - Controls the setting of bit 9 of the ATUISR and generation of
3783 **  					the ATU Error interrupt when a parity error detected on the PCI bus that sets bit 15 of the ATUSR.
3784 **  														0=Not Masked
3785 **  														1=Masked
3786 **  06        0 2                           ATU SERR# Asserted Interrupt Mask - Controls the setting of bit 10 of the ATUISR and generation of the
3787 **  					ATU Error interrupt when SERR# is asserted on the PCI interface resulting in bit 14 of the ATUSR being set.
3788 **  														0=Not Masked
3789 **  														1=Masked
3790 **  		NOTE: This bit is specific to the ATU asserting SERR# and not detecting SERR# from another master.
3791 **  05        0 2                           ATU PCI Master Abort Interrupt Mask - Controls the setting of bit 3 of the ATUISR and generation of the
3792 **  					ATU Error interrupt when a master abort error resulting in bit 13 of the ATUSR being set.
3793 **  														0=Not Masked
3794 **  														1=Masked
3795 **  04        0 2                           ATU PCI Target Abort (Master) Interrupt Mask- Controls the setting of bit 12 of the ATUISR and ATU Error
3796 **  					generation of the interrupt when a target abort error resulting in bit 12 of the ATUSR being set
3797 **  														0=Not Masked
3798 **  														1=Masked
3799 **  03        0 2                           ATU PCI Target Abort (Target) Interrupt Mask- Controls the setting of bit 1 of the ATUISR and generation
3800 **  					of the ATU Error interrupt when a target abort error resulting in bit 11 of the ATUSR being set.
3801 **  														0=Not Masked
3802 **  														1=Masked
3803 **  02        0 2                           ATU PCI Master Parity Error Interrupt Mask - Controls the setting of bit 0 of the ATUISR and generation
3804 **  					of the ATU Error interrupt when a parity error resulting in bit 8 of the ATUSR being set.
3805 **  														0=Not Masked
3806 **  														1=Masked
3807 **  01        0 2                           ATU Inbound Error SERR# Enable - Controls when the ATU asserts (when enabled through the
3808 **  					ATUCMD) SERR# on the PCI interface in response to a master abort on the internal bus during an
3809 **  														inbound write transaction.
3810 **  														0=SERR# Not Asserted due to error
3811 **  														1=SERR# Asserted due to error
3812 **  00        0 2                           ATU ECC Target Abort Enable - Controls the ATU response on the PCI interface to a target abort (ECC
3813 **  					error) from the memory controller on the internal bus. In conventional mode, this action only occurs
3814 **  					during an inbound read transaction where the data phase that was target aborted on the internal bus is
3815 **  					actually requested from the inbound read queue.
3816 **  														0=Disconnect with data
3817 **  														(the data being up to 64 bits of 1��s)
3818 **  														1=Target Abort
3819 **  		NOTE: In PCI-X Mode, The ATU initiates a Split Completion Error Message (with message class=2h -
3820 **  			completer error and message index=81h - 80331 internal bus target abort) on the PCI bus,
3821 **  			independent of the setting of this bit.
3822 ***********************************************************************************
3823 */
3824 #define     ARCMSR_ATU_INTERRUPT_MASK_REG		          0x8C    /*dword 0x8F,0x8E,0x8D,0x8C*/
3825 /*
3826 ***********************************************************************************
3827 **  Inbound ATU Base Address Register 3 - IABAR3
3828 **
3829 **  . The Inbound ATU Base Address Register 3 (IABAR3) together with the Inbound ATU Upper Base Address Register 3 (IAUBAR3) defines the block
3830 **    of memory addresses where the inbound translation window 3 begins.
3831 **  . The inbound ATU decodes and forwards the bus request to the 80331 internal bus with a translated address to map into 80331 local memory.
3832 **  . The IABAR3 and IAUBAR3 define the base address and describes the required memory block size.
3833 **  . Bits 31 through 12 of the IABAR3 is either read/write bits or read only with a value of 0 depending on the value located within the IALR3.
3834 **    The programmed value within the base address register must comply with the PCI programming requirements for address alignment.
3835 **  Note:
3836 **      Since IABAR3 does not appear in the standard PCI configuration header space (offsets 00H - 3CH),
3837 **      IABAR3 is not configured by the host during normal system initialization.
3838 **  Warning:
3839 **    When a non-zero value is not written to IALR3,
3840 **                          the user should not set either the Prefetchable Indicator
3841 **                                                      or the Type         Indicator for 64 bit addressability.
3842 **                          This is the default for IABAR3.
3843 **  Assuming a non-zero value is written to IALR3,
3844 **                          the user may set the Prefetchable Indicator
3845 **                                        or the Type         Indicator:
3846 **  						a. Since non prefetchable memory windows can never be placed above the 4 Gbyte address boundary,
3847 **                             when the Prefetchable Indicator is not set,
3848 **                             the user should also leave the Type Indicator set for 32 bit addressability.
3849 **                             This is the default for IABAR3.
3850 **  						b. when the Prefetchable Indicator is set,
3851 **                             the user should also set the Type Indicator for 64 bit addressability.
3852 **  -----------------------------------------------------------------
3853 **  Bit       Default                       Description
3854 **  31:12     00000H                        Translation Base Address 3 - These bits define the actual location
3855 **                                          the translation function is to respond to when addressed from the PCI bus.
3856 **  11:04        00H                        Reserved.
3857 **  03           0 2                        Prefetchable Indicator - When set, defines the memory space as prefetchable.
3858 **  02:01       00 2                        Type Indicator - Defines the width of the addressability for this memory window:
3859 **  						00 - Memory Window is locatable anywhere in 32 bit address space
3860 **  						10 - Memory Window is locatable anywhere in 64 bit address space
3861 **  00           0 2                        Memory Space Indicator - This bit field describes memory or I/O space base address.
3862 **                                                                   The ATU does not occupy I/O space,
3863 **                                                                   thus this bit must be zero.
3864 ***********************************************************************************
3865 */
3866 #define     ARCMSR_INBOUND_ATU_BASE_ADDRESS3_REG		          0x90    /*dword 0x93,0x92,0x91,0x90*/
3867 /*
3868 ***********************************************************************************
3869 **  Inbound ATU Upper Base Address Register 3 - IAUBAR3
3870 **
3871 **  This register contains the upper base address when decoding PCI addresses beyond 4 GBytes.
3872 **  Together with the Translation Base Address this register defines the actual location
3873 **  the translation function is to respond to when addressed from the PCI bus for addresses > 4GBytes (for DACs).
3874 **  The programmed value within the base address register must comply with the PCI programming
3875 **  requirements for address alignment.
3876 **  Note:
3877 **      When the Type indicator of IABAR3 is set to indicate 32 bit addressability,
3878 **      the IAUBAR3 register attributes are read-only.
3879 **      This is the default for IABAR3.
3880 **  -----------------------------------------------------------------
3881 **  Bit       Default                       Description
3882 **  31:0      00000H                        Translation Upper Base Address 3 - Together with the Translation Base Address 3 these bits define
3883 **                        the actual location the translation function is to respond to when addressed from the PCI bus for addresses > 4GBytes.
3884 ***********************************************************************************
3885 */
3886 #define     ARCMSR_INBOUND_ATU_UPPER_BASE_ADDRESS3_REG		          0x94    /*dword 0x97,0x96,0x95,0x94*/
3887 /*
3888 ***********************************************************************************
3889 **  Inbound ATU Limit Register 3 - IALR3
3890 **
3891 **  Inbound address translation for memory window 3 occurs for data transfers occurring from the PCI
3892 **  bus (originated from the PCI bus) to the 80331 internal bus. The address translation block converts
3893 **  PCI addresses to internal bus addresses.
3894 **  The inbound translation base address for inbound window 3 is specified in Section 3.10.15. When
3895 **  determining block size requirements �X as described in Section 3.10.21 �X the translation limit
3896 **  register provides the block size requirements for the base address register. The remaining registers
3897 **  used for performing address translation are discussed in Section 3.2.1.1.
3898 **  The 80331 translate value register��s programmed value must be naturally aligned with the base
3899 **  address register��s programmed value. The limit register is used as a mask; thus, the lower address
3900 **  bits programmed into the 80331 translate value register are invalid. Refer to the PCI Local Bus
3901 **  Specification, Revision 2.3 for additional information on programming base address registers.
3902 **  Bits 31 to 12 within the IALR3 have a direct effect on the IABAR3 register, bits 31 to 12, with a
3903 **  one to one correspondence. A value of 0 in a bit within the IALR3 makes the corresponding bit
3904 **  within the IABAR3 a read only bit which always returns 0. A value of 1 in a bit within the IALR3
3905 **  makes the corresponding bit within the IABAR3 read/write from PCI. Note that a consequence of
3906 **  this programming scheme is that unless a valid value exists within the IALR3, all writes to the
3907 **  IABAR3 has no effect since a value of all zeros within the IALR3 makes the IABAR3 a read only
3908 **  register.
3909 **  -----------------------------------------------------------------
3910 **  Bit       Default                       Description
3911 **  31:12     00000H                        Inbound Translation Limit 3 - This readback value determines the memory block size required
3912 **                                          for the ATUs memory window 3.
3913 **  11:00       000H                        Reserved
3914 ***********************************************************************************
3915 */
3916 #define     ARCMSR_INBOUND_ATU_LIMIT3_REG		          0x98    /*dword 0x9B,0x9A,0x99,0x98*/
3917 /*
3918 ***********************************************************************************
3919 **  Inbound ATU Translate Value Register 3 - IATVR3
3920 **
3921 **  The Inbound ATU Translate Value Register 3 (IATVR3) contains the internal bus address used to
3922 **  convert PCI bus addresses. The converted address is driven on the internal bus as a result of the
3923 **  inbound ATU address translation.
3924 **  -----------------------------------------------------------------
3925 **  Bit       Default                       Description
3926 **  31:12     00000H                        Inbound ATU Translation Value 3 - This value is used to convert the PCI address to internal bus addresses.
3927 **                                                          This value must be 64-bit aligned on the internal bus. The default address allows the ATU to
3928 **                                                          access the internal 80331 memory-mapped registers.
3929 **  11:00       000H                        Reserved
3930 ***********************************************************************************
3931 */
3932 #define     ARCMSR_INBOUND_ATU_TRANSLATE_VALUE3_REG		          0x9C    /*dword 0x9F,0x9E,0x9D,0x9C*/
3933 /*
3934 ***********************************************************************************
3935 **  Outbound Configuration Cycle Address Register - OCCAR
3936 **
3937 **  The Outbound Configuration Cycle Address Register is used to hold the 32-bit PCI configuration
3938 **  cycle address. The Intel XScale core writes the PCI configuration cycles address which then
3939 **  enables the outbound configuration read or write. The Intel XScale core then performs a read or
3940 **  write to the Outbound Configuration Cycle Data Register to initiate the configuration cycle on the
3941 **  PCI bus.
3942 **  Note: Bits 15:11 of the configuration cycle address for Type 0 configuration cycles are defined differently
3943 **  for Conventional versus PCI-X modes. When 80331 software programs the OCCAR to initiate a
3944 **  Type 0 configuration cycle, the OCCAR should always be loaded based on the PCI-X definition for
3945 **  the Type 0 configuration cycle address. When operating in Conventional mode, the 80331 clears
3946 **  bits 15:11 of the OCCAR prior to initiating an outbound Type 0 configuration cycle. See the PCI-X
3947 **  Addendum to the PCI Local Bus Specification, Revision 1.0a for details on the two formats.
3948 **  -----------------------------------------------------------------
3949 **  Bit       Default                       Description
3950 **  31:00    0000 0000H                     Configuration Cycle Address - These bits define the 32-bit PCI address used during an outbound
3951 **                                          configuration read or write cycle.
3952 ***********************************************************************************
3953 */
3954 #define     ARCMSR_OUTBOUND_CONFIGURATION_CYCLE_ADDRESS_REG		          0xA4    /*dword 0xA7,0xA6,0xA5,0xA4*/
3955 /*
3956 ***********************************************************************************
3957 **  Outbound Configuration Cycle Data Register - OCCDR
3958 **
3959 **  The Outbound Configuration Cycle Data Register is used to initiate a configuration read or write
3960 **  on the PCI bus. The register is logical rather than physical meaning that it is an address not a
3961 **  register. The Intel XScale core reads or writes the data registers memory-mapped address to
3962 **  initiate the configuration cycle on the PCI bus with the address found in the OCCAR. For a
3963 **  configuration write, the data is latched from the internal bus and forwarded directly to the OWQ.
3964 **  For a read, the data is returned directly from the ORQ to the Intel XScale core and is never
3965 **  actually entered into the data register (which does not physically exist).
3966 **  The OCCDR is only visible from 80331 internal bus address space and appears as a reserved value
3967 **  within the ATU configuration space.
3968 **  -----------------------------------------------------------------
3969 **  Bit       Default                       Description
3970 **  31:00    0000 0000H                     Configuration Cycle Data - These bits define the data used during an outbound configuration read
3971 **                                          or write cycle.
3972 ***********************************************************************************
3973 */
3974 #define     ARCMSR_OUTBOUND_CONFIGURATION_CYCLE_DATA_REG		          0xAC    /*dword 0xAF,0xAE,0xAD,0xAC*/
3975 /*
3976 ***********************************************************************************
3977 **  VPD Capability Identifier Register - VPD_CAPID
3978 **
3979 **  The Capability Identifier Register bits adhere to the definitions in the PCI Local Bus Specification,
3980 **  Revision 2.3. This register in the PCI Extended Capability header identifies the type of Extended
3981 **  Capability contained in that header. In the case of the 80331, this is the VPD extended capability
3982 **  with an ID of 03H as defined by the PCI Local Bus Specification, Revision 2.3.
3983 **  -----------------------------------------------------------------
3984 **  Bit       Default                       Description
3985 **  07:00       03H               Cap_Id - This field with its�� 03H value identifies this item in the linked list of Extended Capability
3986 **                                Headers as being the VPD capability registers.
3987 ***********************************************************************************
3988 */
3989 #define     ARCMSR_VPD_CAPABILITY_IDENTIFIER_REG		      0xB8    /*byte*/
3990 /*
3991 ***********************************************************************************
3992 **  VPD Next Item Pointer Register - VPD_NXTP
3993 **
3994 **  The Next Item Pointer Register bits adhere to the definitions in the PCI Local Bus Specification,
3995 **  Revision 2.3. This register describes the location of the next item in the function��s capability list.
3996 **  For the 80331, this the final capability list, and hence, this register is set to 00H.
3997 **  -----------------------------------------------------------------
3998 **  Bit       Default                       Description
3999 **  07:00       00H               Next_ Item_ Pointer - This field provides an offset into the function��s configuration space pointing to the
4000 **                                next item in the function��s capability list. Since the VPD capabilities are the last in the linked list of
4001 **                                extended capabilities in the 80331, the register is set to 00H.
4002 ***********************************************************************************
4003 */
4004 #define     ARCMSR_VPD_NEXT_ITEM_PTR_REG		          0xB9    /*byte*/
4005 /*
4006 ***********************************************************************************
4007 **  VPD Address Register - VPD_AR
4008 **
4009 **  The VPD Address register (VPDAR) contains the DWORD-aligned byte address of the VPD to be
4010 **  accessed. The register is read/write and the initial value at power-up is indeterminate.
4011 **  A PCI Configuration Write to the VPDAR interrupts the Intel XScale core. Software can use
4012 **  the Flag setting to determine whether the configuration write was intended to initiate a read or
4013 **  write of the VPD through the VPD Data Register.
4014 **  -----------------------------------------------------------------
4015 **  Bit       Default                       Description
4016 **  15          0 2          Flag - A flag is used to indicate when a transfer of data between the VPD Data Register and the storage
4017 **                           component has completed. Please see Section 3.9, ��Vital Product Data�� on page 201 for more details on
4018 **                           how the 80331 handles the data transfer.
4019 **  14:0       0000H         VPD Address - This register is written to set the DWORD-aligned byte address used to read or write
4020 **                           Vital Product Data from the VPD storage component.
4021 ***********************************************************************************
4022 */
4023 #define     ARCMSR_VPD_ADDRESS_REG		          0xBA    /*word 0xBB,0xBA*/
4024 /*
4025 ***********************************************************************************
4026 **  VPD Data Register - VPD_DR
4027 **
4028 **  This register is used to transfer data between the 80331 and the VPD storage component.
4029 **  -----------------------------------------------------------------
4030 **  Bit       Default                       Description
4031 **  31:00      0000H                        VPD Data - Four bytes are always read or written through this register to/from the VPD storage component.
4032 ***********************************************************************************
4033 */
4034 #define     ARCMSR_VPD_DATA_REG		          0xBC    /*dword 0xBF,0xBE,0xBD,0xBC*/
4035 /*
4036 ***********************************************************************************
4037 **  Power Management Capability Identifier Register -PM_CAPID
4038 **
4039 **  The Capability Identifier Register bits adhere to the definitions in the PCI Local Bus Specification,
4040 **  Revision 2.3. This register in the PCI Extended Capability header identifies the type of Extended
4041 **  Capability contained in that header. In the case of the 80331, this is the PCI Bus Power
4042 **  Management extended capability with an ID of 01H as defined by the PCI Bus Power Management
4043 **  Interface Specification, Revision 1.1.
4044 **  -----------------------------------------------------------------
4045 **  Bit       Default                       Description
4046 **  07:00       01H                         Cap_Id - This field with its�� 01H value identifies this item in the linked list of Extended Capability
4047 **                                          Headers as being the PCI Power Management Registers.
4048 ***********************************************************************************
4049 */
4050 #define     ARCMSR_POWER_MANAGEMENT_CAPABILITY_IDENTIFIER_REG		          0xC0    /*byte*/
4051 /*
4052 ***********************************************************************************
4053 **  Power Management Next Item Pointer Register - PM_NXTP
4054 **
4055 **  The Next Item Pointer Register bits adhere to the definitions in the PCI Local Bus Specification,
4056 **  Revision 2.3. This register describes the location of the next item in the function��s capability list.
4057 **  For the 80331, the next capability (MSI capability list) is located at off-set D0H.
4058 **  -----------------------------------------------------------------
4059 **  Bit       Default                       Description
4060 **  07:00       D0H                         Next_ Item_ Pointer - This field provides an offset into the function��s configuration space pointing to the
4061 **                          next item in the function��s capability list which in the 80331 is the MSI extended capabilities header.
4062 ***********************************************************************************
4063 */
4064 #define     ARCMSR_POWER_NEXT_ITEM_PTR_REG		          0xC1    /*byte*/
4065 /*
4066 ***********************************************************************************
4067 **  Power Management Capabilities Register - PM_CAP
4068 **
4069 **  Power Management Capabilities bits adhere to the definitions in the PCI Bus Power Management
4070 **  Interface Specification, Revision 1.1. This register is a 16-bit read-only register which provides
4071 **  information on the capabilities of the ATU function related to power management.
4072 **  -----------------------------------------------------------------
4073 **  Bit       Default                       Description
4074 **  15:11   00000 2                         PME_Support - This function is not capable of asserting the PME# signal in any state, since PME#
4075 **                                          is not supported by the 80331.
4076 **  10          0 2                         D2_Support - This bit is set to 0 2 indicating that the 80331 does not support the D2 Power Management State
4077 **  9           1 2                         D1_Support - This bit is set to 1 2 indicating that the 80331 supports the D1 Power Management State
4078 **  8:6       000 2                         Aux_Current - This field is set to 000 2 indicating that the 80331 has no current requirements for the
4079 **                                                          3.3Vaux signal as defined in the PCI Bus Power Management Interface Specification, Revision 1.1
4080 **  5           0 2                         DSI - This field is set to 0 2 meaning that this function requires a device specific initialization sequence
4081 **                                                          following the transition to the D0 uninitialized state.
4082 **  4           0 2                         Reserved.
4083 **  3           0 2                         PME Clock - Since the 80331 does not support PME# signal generation this bit is cleared to 0 2 .
4084 **  2:0       010 2                         Version - Setting these bits to 010 2 means that this function complies with PCI Bus Power Management
4085 **                                          Interface Specification, Revision 1.1
4086 ***********************************************************************************
4087 */
4088 #define     ARCMSR_POWER_MANAGEMENT_CAPABILITY_REG		          0xC2    /*word 0xC3,0xC2*/
4089 /*
4090 ***********************************************************************************
4091 **  Power Management Control/Status Register - PM_CSR
4092 **
4093 **  Power Management Control/Status bits adhere to the definitions in the PCI Bus Power
4094 **  Management Interface Specification, Revision 1.1. This 16-bit register is the control and status
4095 **  interface for the power management extended capability.
4096 **  -----------------------------------------------------------------
4097 **  Bit       Default                       Description
4098 **  15          0 2                         PME_Status - This function is not capable of asserting the PME# signal in any state, since PME## is not
4099 **                                          supported by the 80331.
4100 **  14:9        00H                         Reserved
4101 **  8           0 2                         PME_En - This bit is hardwired to read-only 0 2 since this function does not support PME#
4102 **                                          generation from any power state.
4103 **  7:2    000000 2                         Reserved
4104 **  1:0        00 2                         Power State - This 2-bit field is used both to determine the current power state
4105 **                                          of a function and to set the function into a new power state. The definition of the values is:
4106 **  							00 2 - D0
4107 **  							01 2 - D1
4108 **  							10 2 - D2 (Unsupported)
4109 **  							11 2 - D3 hot
4110 **  							The 80331 supports only the D0 and D3 hot states.
4111 **
4112 ***********************************************************************************
4113 */
4114 #define     ARCMSR_POWER_MANAGEMENT_CONTROL_STATUS_REG		          0xC4    /*word 0xC5,0xC4*/
4115 /*
4116 ***********************************************************************************
4117 **  PCI-X Capability Identifier Register - PX_CAPID
4118 **
4119 **  The Capability Identifier Register bits adhere to the definitions in the PCI Local Bus Specification,
4120 **  Revision 2.3. This register in the PCI Extended Capability header identifies the type of Extended
4121 **  Capability contained in that header. In the case of the 80331, this is the PCI-X extended capability with
4122 **  an ID of 07H as defined by the PCI-X Addendum to the PCI Local Bus Specification, Revision 1.0a.
4123 **  -----------------------------------------------------------------
4124 **  Bit       Default                       Description
4125 **  07:00       07H                         Cap_Id - This field with its�� 07H value identifies this item in the linked list of Extended Capability
4126 **                                          Headers as being the PCI-X capability registers.
4127 ***********************************************************************************
4128 */
4129 #define     ARCMSR_PCIX_CAPABILITY_IDENTIFIER_REG		          0xE0    /*byte*/
4130 /*
4131 ***********************************************************************************
4132 **  PCI-X Next Item Pointer Register - PX_NXTP
4133 **
4134 **  The Next Item Pointer Register bits adhere to the definitions in the PCI Local Bus Specification,
4135 **  Revision 2.3. This register describes the location of the next item in the function��s capability list.
4136 **  By default, the PCI-X capability is the last capabilities list for the 80331, thus this register defaults
4137 **  to 00H.
4138 **  However, this register may be written to B8H prior to host configuration to include the VPD
4139 **  capability located at off-set B8H.
4140 **  Warning: Writing this register to any value other than 00H (default) or B8H is not supported and may
4141 **  produce unpredictable system behavior.
4142 **  In order to guarantee that this register is written prior to host configuration, the 80331 must be
4143 **  initialized at P_RST# assertion to Retry Type 0 configuration cycles (bit 2 of PCSR). Typically,
4144 **  the Intel XScale core would be enabled to boot immediately following P_RST# assertion in
4145 **  this case (bit 1 of PCSR), as well. Please see Table 125, ��PCI Configuration and Status Register -
4146 **  PCSR�� on page 253 for more details on the 80331 initialization modes.
4147 **  -----------------------------------------------------------------
4148 **  Bit       Default                       Description
4149 **  07:00       00H                         Next_ Item_ Pointer - This field provides an offset into the function��s configuration space pointing to the
4150 **  			next item in the function��s capability list. Since the PCI-X capabilities are the last in the linked list of
4151 **  			extended capabilities in the 80331, the register is set to 00H.
4152 **  			However, this field may be written prior to host configuration with B8H to extend the list to include the
4153 **  			VPD extended capabilities header.
4154 ***********************************************************************************
4155 */
4156 #define     ARCMSR_PCIX_NEXT_ITEM_PTR_REG		          0xE1    /*byte*/
4157 /*
4158 ***********************************************************************************
4159 **  PCI-X Command Register - PX_CMD
4160 **
4161 **  This register controls various modes and features of ATU and Message Unit when operating in the
4162 **  PCI-X mode.
4163 **  -----------------------------------------------------------------
4164 **  Bit       Default                       Description
4165 **  15:7     000000000 2                    Reserved.
4166 **  6:4        011 2                        Maximum Outstanding Split Transactions - This register sets the maximum number of Split Transactions
4167 **  			the device is permitted to have outstanding at one time.
4168 **  			Register Maximum Outstanding
4169 **  					0 1
4170 **  					1 2
4171 **  					2 3
4172 **  					3 4
4173 **  					4 8
4174 **  					5 12
4175 **  					6 16
4176 **  					7 32
4177 **  3:2        00 2                         Maximum Memory Read Byte Count - This register sets the maximum byte count the device uses when
4178 **  			initiating a Sequence with one of the burst memory read commands.
4179 **  			Register Maximum Byte Count
4180 **  					0 512
4181 **  					1 1024
4182 **  					2 2048
4183 **  					3 4096
4184 **  					1 0 2
4185 **  			Enable Relaxed Ordering - The 80331 does not set the relaxed ordering bit in the Requester Attributes
4186 **  			of Transactions.
4187 **  0          0 2                          Data Parity Error Recovery Enable - The device driver sets this bit to enable the device to attempt to
4188 **  			recover from data parity errors. When this bit is 0 and the device is in PCI-X mode, the device asserts
4189 **  			SERR# (when enabled) whenever the Master Data Parity Error bit (Status register, bit 8) is set.
4190 ***********************************************************************************
4191 */
4192 #define     ARCMSR_PCIX_COMMAND_REG		          0xE2    /*word 0xE3,0xE2*/
4193 /*
4194 ***********************************************************************************
4195 **  PCI-X Status Register - PX_SR
4196 **
4197 **  This register identifies the capabilities and current operating mode of ATU, DMAs and Message
4198 **  Unit when operating in the PCI-X mode.
4199 **  -----------------------------------------------------------------
4200 **  Bit       Default                       Description
4201 **  31:30       00 2                        Reserved
4202 **  29           0 2                        Received Split Completion Error Message - This bit is set when the device receives a Split Completion
4203 **  					Message with the Split Completion Error attribute bit set. Once set, this bit remains set until software
4204 **  					writes a 1 to this location.
4205 **  					0=no Split Completion error message received.
4206 **  					1=a Split Completion error message has been received.
4207 **  28:26      001 2                        Designed Maximum Cumulative Read Size (DMCRS) - The value of this register depends on the setting
4208 **  					of the Maximum Memory Read Byte Count field of the PCIXCMD register:
4209 **  					DMCRS Max ADQs Maximum Memory Read Byte Count Register Setting
4210 **  					1 16 512 (Default)
4211 **  					2 32 1024
4212 **  					2 32 2048
4213 **  					2 32 4096
4214 **  25:23      011 2                        Designed Maximum Outstanding Split Transactions - The 80331 can have up to four outstanding split transactions.
4215 **  22:21       01 2                        Designed Maximum Memory Read Byte Count - The 80331 can generate memory reads with byte counts up
4216 **                                          to 1024 bytes.
4217 **  20           1 2                        80331 is a complex device.
4218 **  19           0 2                        Unexpected Split Completion - This bit is set when an unexpected Split Completion with this device��s
4219 **  					Requester ID is received. Once set, this bit remains set until software writes a 1 to this location.
4220 **  					0=no unexpected Split Completion has been received.
4221 **  					1=an unexpected Split Completion has been received.
4222 **  18           0 2                        Split Completion Discarded - This bit is set when the device discards a Split Completion because the
4223 **  					requester would not accept it. See Section 5.4.4 of the PCI-X Addendum to the PCI Local Bus
4224 **  					Specification, Revision 1.0a for details. Once set, this bit remains set until software writes a 1 to this
4225 **  					location.
4226 **  					0=no Split Completion has been discarded.
4227 **  					1=a Split Completion has been discarded.
4228 **  		NOTE: The 80331 does not set this bit since there is no Inbound address responding to Inbound Read
4229 **  			Requests with Split Responses (Memory or Register) that has ��read side effects.��
4230 **  17           1 2                        80331 is a 133 MHz capable device.
4231 **  16           1 2 or P_32BITPCI#	80331 with bridge enabled (BRG_EN=1) implements the ATU with a 64-bit interface on the secondary PCI bus,
4232 **  					therefore this bit is always set.
4233 **  			80331 with no bridge and central resource disabled (BRG_EN=0, ARB_EN=0),
4234 **  			use this bit to identify the add-in card to the system as 64-bit or 32-bit wide via a user-configurable strap (P_32BITPCI#).
4235 **  			This strap, by default, identifies the add in card based on 80331 with bridge disabled
4236 **  			as 64-bit unless the user attaches the appropriate pull-down resistor to the strap.
4237 **  			0=The bus is 32 bits wide.
4238 **  			1=The bus is 64 bits wide.
4239 **  15:8         FFH                        Bus Number - This register is read for diagnostic purposes only. It indicates the number of the bus
4240 **  			segment for the device containing this function. The function uses this number as part of its Requester
4241 **  			ID and Completer ID. For all devices other than the source bridge, each time the function is addressed
4242 **  			by a Configuration Write transaction, the function must update this register with the contents of AD[7::0]
4243 **  			of the attribute phase of the Configuration Write, regardless of which register in the function is
4244 **  			addressed by the transaction. The function is addressed by a Configuration Write transaction when all of
4245 **  			the following are true:
4246 **  			1. The transaction uses a Configuration Write command.
4247 **  			2. IDSEL is asserted during the address phase.
4248 **  			3. AD[1::0] are 00b (Type 0 configuration transaction).
4249 **  			4. AD[10::08] of the configuration address contain the appropriate function number.
4250 **  7:3          1FH                        Device Number - This register is read for diagnostic purposes only. It indicates the number of the device
4251 **  			containing this function, i.e., the number in the Device Number field (AD[15::11]) of the address of a
4252 **  			Type 0 configuration transaction that is assigned to the device containing this function by the connection
4253 **  			of the system hardware. The system must assign a device number other than 00h (00h is reserved for
4254 **  			the source bridge). The function uses this number as part of its Requester ID and Completer ID. Each
4255 **  			time the function is addressed by a Configuration Write transaction, the device must update this register
4256 **  			with the contents of AD[15::11] of the address phase of the Configuration Write, regardless of which
4257 **  			register in the function is addressed by the transaction. The function is addressed by a Configuration
4258 **  			Write transaction when all of the following are true:
4259 **  			1. The transaction uses a Configuration Write command.
4260 **  			2. IDSEL is asserted during the address phase.
4261 **  			3. AD[1::0] are 00b (Type 0 configuration transaction).
4262 **  			4. AD[10::08] of the configuration address contain the appropriate function number.
4263 **  2:0        000 2                        Function Number - This register is read for diagnostic purposes only. It indicates the number of this
4264 **  			function; i.e., the number in the Function Number field (AD[10::08]) of the address of a Type 0
4265 **  			configuration transaction to which this function responds. The function uses this number as part of its
4266 **  			Requester ID and Completer ID.
4267 **
4268 **************************************************************************
4269 */
4270 #define     ARCMSR_PCIX_STATUS_REG		          0xE4    /*dword 0xE7,0xE6,0xE5,0xE4*/
4271 
4272 /*
4273 **************************************************************************
4274 **                 Inbound Read Transaction
4275 **  ========================================================================
4276 **	An inbound read transaction is initiated by a PCI initiator and is targeted at either 80331 local
4277 **	memory or a 80331 memory-mapped register space. The read transaction is propagated through
4278 **	the inbound transaction queue (ITQ) and read data is returned through the inbound read queue
4279 **	(IRQ).
4280 **	When operating in the conventional PCI mode, all inbound read transactions are processed as
4281 **	delayed read transactions. When operating in the PCI-X mode, all inbound read transactions are
4282 **	processed as split transactions. The ATUs PCI interface claims the read transaction and forwards
4283 **	the read request through to the internal bus and returns the read data to the PCI bus. Data flow for
4284 **	an inbound read transaction on the PCI bus is summarized in the following statements:
4285 **	�E The ATU claims the PCI read transaction when the PCI address is within the inbound
4286 **	translation window defined by ATU Inbound Base Address Register (and Inbound Upper Base
4287 **	Address Register during DACs) and Inbound Limit Register.
4288 **	�E When operating in the conventional PCI mode, when the ITQ is currently holding transaction
4289 **	information from a previous delayed read, the current transaction information is compared to
4290 **	the previous transaction information (based on the setting of the DRC Alias bit in
4291 **	Section 3.10.39, ��ATU Configuration Register - ATUCR�� on page 252). When there is a
4292 **	match and the data is in the IRQ, return the data to the master on the PCI bus. When there is a
4293 **	match and the data is not available, a Retry is signaled with no other action taken. When there
4294 **	is not a match and when the ITQ has less than eight entries, capture the transaction
4295 **	information, signal a Retry and initiate a delayed transaction. When there is not a match and
4296 **	when the ITQ is full, then signal a Retry with no other action taken.
4297 **	�X When an address parity error is detected, the address parity response defined in
4298 **	Section 3.7 is used.
4299 **	�E When operating in the conventional PCI mode, once read data is driven onto the PCI bus from
4300 **	the IRQ, it continues until one of the following is true:
4301 **	�X The initiator completes the PCI transaction. When there is data left unread in the IRQ, the
4302 **	data is flushed.
4303 **	�X An internal bus Target Abort was detected. In this case, the QWORD associated with the
4304 **	Target Abort is never entered into the IRQ, and therefore is never returned.
4305 **	�X Target Abort or a Disconnect with Data is returned in response to the Internal Bus Error.
4306 **	�X The IRQ becomes empty. In this case, the PCI interface signals a Disconnect with data to
4307 **	the initiator on the last data word available.
4308 **	�E When operating in the PCI-X mode, when ITQ is not full, the PCI address, attribute and
4309 **	command are latched into the available ITQ and a Split Response Termination is signalled to
4310 **	the initiator.
4311 **	�E When operating in the PCI-X mode, when the transaction does not cross a 1024 byte aligned
4312 **	boundary, then the ATU waits until it receives the full byte count from the internal bus target
4313 **	before returning read data by generating the split completion transaction on the PCI-X bus.
4314 **	When the read requested crosses at least one 1024 byte boundary, then ATU completes the
4315 **	transfer by returning data in 1024 byte aligned chunks.
4316 **	�E When operating in the PCI-X mode, once a split completion transaction has started, it
4317 **	continues until one of the following is true:
4318 **	�X The requester (now the target) generates a Retry Termination, or a Disconnection at Next
4319 **	ADB (when the requester is a bridge)
4320 **	�X The byte count is satisfied.
4321 **	�X An internal bus Target Abort was detected. The ATU generates a Split Completion
4322 **	Message (message class=2h - completer error, and message index=81h - target abort) to
4323 **	inform the requester about the abnormal condition. The ITQ for this transaction is flushed.
4324 **	Refer to Section 3.7.1.
4325 **	�X An internal bus Master Abort was detected. The ATU generates a Split Completion
4326 **	Message (message class=2h - completer error, and message index=80h - Master abort) to
4327 **	inform the requester about the abnormal condition. The ITQ for this transaction is flushed.
4328 **	Refer to Section 3.7.1
4329 **	�E When operating in the conventional PCI mode, when the master inserts wait states on the PCI
4330 **	bus, the ATU PCI slave interface waits with no premature disconnects.
4331 **	�E When a data parity error occurs signified by PERR# asserted from the initiator, no action is
4332 **	taken by the target interface. Refer to Section 3.7.2.5.
4333 **	�E When operating in the conventional PCI mode, when the read on the internal bus is
4334 **	target-aborted, either a target-abort or a disconnect with data is signaled to the initiator. This is
4335 **	based on the ATU ECC Target Abort Enable bit (bit 0 of the ATUIMR for ATU). When set, a
4336 **	target abort is used, when clear, a disconnect is used.
4337 **	�E When operating in the PCI-X mode (with the exception of the MU queue ports at offsets 40h
4338 **	and 44h), when the transaction on the internal bus resulted in a target abort, the ATU generates
4339 **	a Split Completion Message (message class=2h - completer error, and message index=81h -
4340 **	internal bus target abort) to inform the requester about the abnormal condition. For the MU
4341 **	queue ports, the ATU returns either a target abort or a single data phase disconnect depending
4342 **	on the ATU ECC Target Abort Enable bit (bit 0 of the ATUIMR for ATU). The ITQ for this
4343 **	transaction is flushed. Refer to Section 3.7.1.
4344 **	�E When operating in the conventional PCI mode, when the transaction on the internal bus
4345 **	resulted in a master abort, the ATU returns a target abort to inform the requester about the
4346 **	abnormal condition. The ITQ for this transaction is flushed. Refer to Section 3.7.1
4347 **	�E When operating in the PCI-X mode, when the transaction on the internal bus resulted in a
4348 **	master abort, the ATU generates a Split Completion Message (message class=2h - completer
4349 **	error, and message index=80h - internal bus master abort) to inform the requester about the
4350 **	abnormal condition. The ITQ for this transaction is flushed. Refer to Section 3.7.1.
4351 **	�E When operating in the PCI-X mode, when the Split Completion transaction completes with
4352 **	either Master-Abort or Target-Abort, the requester is indicating a failure condition that
4353 **	prevents it from accepting the completion it requested. In this case, since the Split Request
4354 **	addresses a location that has no read side effects, the completer must discard the Split
4355 **	Completion and take no further action.
4356 **	The data flow for an inbound read transaction on the internal bus is summarized in the following
4357 **	statements:
4358 **	�E The ATU internal bus master interface requests the internal bus when a PCI address appears in
4359 **		an ITQ and transaction ordering has been satisfied. When operating in the PCI-X mode the
4360 **		ATU does not use the information provided by the Relax Ordering Attribute bit. That is, ATU
4361 **		always uses conventional PCI ordering rules.
4362 **	�E Once the internal bus is granted, the internal bus master interface drives the translated address
4363 **		onto the bus and wait for IB_DEVSEL#. When a Retry is signaled, the request is repeated.
4364 **		When a master abort occurs, the transaction is considered complete and a target abort is loaded
4365 **		into the associated IRQ for return to the PCI initiator (transaction is flushed once the PCI
4366 **		master has been delivered the target abort).
4367 **	�E Once the translated address is on the bus and the transaction has been accepted, the internal
4368 **		bus target starts returning data with the assertion of IB_TRDY#. Read data is continuously
4369 **		received by the IRQ until one of the following is true:
4370 **	�X The full byte count requested by the ATU read request is received. The ATU internal bus
4371 **	    initiator interface performs a initiator completion in this case.
4372 **	�X When operating in the conventional PCI mode, a Target Abort is received on the internal
4373 **		bus from the internal bus target. In this case, the transaction is aborted and the PCI side is
4374 **		informed.
4375 **	�X When operating in the PCI-X mode, a Target Abort is received on the internal bus from
4376 **		the internal bus target. In this case, the transaction is aborted. The ATU generates a Split
4377 **		Completion Message (message class=2h - completer error, and message index=81h -
4378 **		target abort) on the PCI bus to inform the requester about the abnormal condition. The
4379 **		ITQ for this transaction is flushed.
4380 **	�X When operating in the conventional PCI mode, a single data phase disconnection is
4381 **		received from the internal bus target. When the data has not been received up to the next
4382 **		QWORD boundary, the ATU internal bus master interface attempts to reacquire the bus.
4383 **		When not, the bus returns to idle.
4384 **	�X When operating in the PCI-X mode, a single data phase disconnection is received from
4385 **		the internal bus target. The ATU IB initiator interface attempts to reacquire the bus to
4386 **		obtain remaining data.
4387 **	�X When operating in the conventional PCI mode, a disconnection at Next ADB is received
4388 **	    from the internal bus target. The bus returns to idle.
4389 **	�X When operating in the PCI-X mode, a disconnection at Next ADB is received from the
4390 **		internal bus target. The ATU IB initiator interface attempts to reacquire the bus to obtain
4391 **		remaining data.
4392 **		To support PCI Local Bus Specification, Revision 2.0 devices, the ATU can be programmed to
4393 **		ignore the memory read command (Memory Read, Memory Read Line, and Memory Read
4394 **		Multiple) when trying to match the current inbound read transaction with data in a DRC queue
4395 **		which was read previously (DRC on target bus). When the Read Command Alias Bit in the
4396 **		ATUCR register is set, the ATU does not distinguish the read commands on transactions. For
4397 **		example, the ATU enqueues a DRR with a Memory Read Multiple command and performs the read
4398 **		on the internal bus. Some time later, a PCI master attempts a Memory Read with the same address
4399 **		as the previous Memory Read Multiple. When the Read Command Bit is set, the ATU would return
4400 **		the read data from the DRC queue and consider the Delayed Read transaction complete. When the
4401 **		Read Command bit in the ATUCR was clear, the ATU would not return data since the PCI read
4402 **		commands did not match, only the address.
4403 **************************************************************************
4404 */
4405 /*
4406 **************************************************************************
4407 **                    Inbound Write Transaction
4408 **========================================================================
4409 **	  An inbound write transaction is initiated by a PCI master and is targeted at either 80331 local
4410 **	  memory or a 80331 memory-mapped register.
4411 **	Data flow for an inbound write transaction on the PCI bus is summarized as:
4412 **	�E The ATU claims the PCI write transaction when the PCI address is within the inbound
4413 **	  translation window defined by the ATU Inbound Base Address Register (and Inbound Upper
4414 **	  Base Address Register during DACs) and Inbound Limit Register.
4415 **	�E When the IWADQ has at least one address entry available and the IWQ has at least one buffer
4416 **	  available, the address is captured and the first data phase is accepted.
4417 **	�E The PCI interface continues to accept write data until one of the following is true:
4418 **	  �X The initiator performs a disconnect.
4419 **	  �X The transaction crosses a buffer boundary.
4420 **	�E When an address parity error is detected during the address phase of the transaction, the
4421 **	  address parity error mechanisms are used. Refer to Section 3.7.1 for details of the address
4422 **	  parity error response.
4423 **	�E When operating in the PCI-X mode when an attribute parity error is detected, the attribute
4424 **	  parity error mechanism described in Section 3.7.1 is used.
4425 **	�E When a data parity error is detected while accepting data, the slave interface sets the
4426 **	  appropriate bits based on PCI specifications. No other action is taken. Refer to Section 3.7.2.6
4427 **	  for details of the inbound write data parity error response.
4428 **	  Once the PCI interface places a PCI address in the IWADQ, when IWQ has received data sufficient
4429 **	  to cross a buffer boundary or the master disconnects on the PCI bus, the ATUs internal bus
4430 **	  interface becomes aware of the inbound write. When there are additional write transactions ahead
4431 **	  in the IWQ/IWADQ, the current transaction remains posted until ordering and priority have been
4432 **	  satisfied (Refer to Section 3.5.3) and the transaction is attempted on the internal bus by the ATU
4433 **	  internal master interface. The ATU does not insert target wait states nor do data merging on the PCI
4434 **	  interface, when operating in the PCI mode.
4435 **	  In the PCI-X mode memory writes are always executed as immediate transactions, while
4436 **	  configuration write transactions are processed as split transactions. The ATU generates a Split
4437 **	  Completion Message, (with Message class=0h - Write Completion Class and Message index =
4438 **	  00h - Write Completion Message) once a configuration write is successfully executed.
4439 **	  Also, when operating in the PCI-X mode a write sequence may contain multiple write transactions.
4440 **	  The ATU handles such transactions as independent transactions.
4441 **	  Data flow for the inbound write transaction on the internal bus is summarized as:
4442 **	�E The ATU internal bus master requests the internal bus when IWADQ has at least one entry
4443 **	  with associated data in the IWQ.
4444 **	�E When the internal bus is granted, the internal bus master interface initiates the write
4445 **	  transaction by driving the translated address onto the internal bus. For details on inbound
4446 **	  address translation.
4447 **	�E When IB_DEVSEL# is not returned, a master abort condition is signaled on the internal bus.
4448 **	  The current transaction is flushed from the queue and SERR# may be asserted on the PCI
4449 **	  interface.
4450 **	�E The ATU initiator interface asserts IB_REQ64# to attempt a 64-bit transfer. When
4451 **	  IB_ACK64# is not returned, a 32-bit transfer is used. Transfers of less than 64-bits use the
4452 **	  IB_C/BE[7:0]# to mask the bytes not written in the 64-bit data phase. Write data is transferred
4453 **	  from the IWQ to the internal bus when data is available and the internal bus interface retains
4454 **	  internal bus ownership.
4455 **	�E The internal bus interface stops transferring data from the current transaction to the internal
4456 **	  bus when one of the following conditions becomes true:
4457 **	�X The internal bus initiator interface loses bus ownership. The ATU internal initiator
4458 **	  terminates the transfer (initiator disconnection) at the next ADB (for the internal bus ADB
4459 **	  is defined as a naturally aligned 128-byte boundary) and attempt to reacquire the bus to
4460 **	  complete the delivery of remaining data using the same sequence ID but with the
4461 **	  modified starting address and byte count.
4462 **	�X A Disconnect at Next ADB is signaled on the internal bus from the internal target. When
4463 **	  the transaction in the IWQ completes at that ADB, the initiator returns to idle. When the
4464 **	  transaction in the IWQ is not complete, the initiator attempts to reacquire the bus to
4465 **	  complete the delivery of remaining data using the same sequence ID but with the
4466 **	  modified starting address and byte count.
4467 **	�X A Single Data Phase Disconnect is signaled on the internal bus from the internal target.
4468 **	  When the transaction in the IWQ needs only a single data phase, the master returns to idle.
4469 **	  When the transaction in the IWQ is not complete, the initiator attempts to reacquire the
4470 **	  bus to complete the delivery of remaining data using the same sequence ID but with the
4471 **	  modified starting address and byte count.
4472 **	�X The data from the current transaction has completed (satisfaction of byte count). An
4473 **	  initiator termination is performed and the bus returns to idle.
4474 **	�X A Master Abort is signaled on the internal bus. SERR# may be asserted on the PCI bus.
4475 **	  Data is flushed from the IWQ.
4476 *****************************************************************
4477 */
4478 
4479 /*
4480 **************************************************************************
4481 **               Inbound Read Completions Data Parity Errors
4482 **========================================================================
4483 **	As an initiator, the ATU may encounter this error condition when operating in the PCI-X mode.
4484 **	When as the completer of a Split Read Request the ATU observes PERR# assertion during the split
4485 **	completion transaction, the ATU attempts to complete the transaction normally and no further
4486 **	action is taken.
4487 **************************************************************************
4488 */
4489 
4490 /*
4491 **************************************************************************
4492 **               Inbound Configuration Write Completion Message Data Parity Errors
4493 **========================================================================
4494 **  As an initiator, the ATU may encounter this error condition when operating in the PCI-X mode.
4495 **  When as the completer of a Configuration (Split) Write Request the ATU observes PERR#
4496 **  assertion during the split completion transaction, the ATU attempts to complete the transaction
4497 **  normally and no further action is taken.
4498 **************************************************************************
4499 */
4500 
4501 /*
4502 **************************************************************************
4503 **              Inbound Read Request Data Parity Errors
4504 **===================== Immediate Data Transfer ==========================
4505 **  As a target, the ATU may encounter this error when operating in the Conventional PCI or PCI-X modes.
4506 **  Inbound read data parity errors occur when read data delivered from the IRQ is detected as having
4507 **  bad parity by the initiator of the transaction who is receiving the data. The initiator may optionally
4508 **  report the error to the system by asserting PERR#. As a target device in this scenario, no action is
4509 **  required and no error bits are set.
4510 **=====================Split Response Termination=========================
4511 **  As a target, the ATU may encounter this error when operating in the PCI-X mode.
4512 **  Inbound read data parity errors occur during the Split Response Termination. The initiator may
4513 **  optionally report the error to the system by asserting PERR#. As a target device in this scenario, no
4514 **  action is required and no error bits are set.
4515 **************************************************************************
4516 */
4517 
4518 /*
4519 **************************************************************************
4520 **              Inbound Write Request Data Parity Errors
4521 **========================================================================
4522 **	As a target, the ATU may encounter this error when operating in the Conventional or PCI-X modes.
4523 **	Data parity errors occurring during write operations received by the ATU may assert PERR# on
4524 **	the PCI Bus. When an error occurs, the ATU continues accepting data until the initiator of the write
4525 **	transaction completes or a queue fill condition is reached. Specifically, the following actions with
4526 **	the given constraints are taken by the ATU:
4527 **	�E PERR# is asserted two clocks cycles (three clock cycles when operating in the PCI-X mode)
4528 **	following the data phase in which the data parity error is detected on the bus. This is only
4529 **	done when the Parity Error Response bit in the ATUCMD is set.
4530 **	�E The Detected Parity Error bit in the ATUSR is set. When the ATU sets this bit, additional
4531 **	actions is taken:
4532 **	�X When the ATU Detected Parity Error Interrupt Mask bit in the ATUIMR is clear, set the
4533 **	Detected Parity Error bit in the ATUISR. When set, no action.
4534 ***************************************************************************
4535 */
4536 
4537 /*
4538 ***************************************************************************
4539 **                 Inbound Configuration Write Request
4540 **  =====================================================================
4541 **  As a target, the ATU may encounter this error when operating in the Conventional or PCI-X modes.
4542 **  ===============================================
4543 **              Conventional PCI Mode
4544 **  ===============================================
4545 **  To allow for correct data parity calculations for delayed write transactions, the ATU delays the
4546 **  assertion of STOP# (signalling a Retry) until PAR is driven by the master. A parity error during a
4547 **  delayed write transaction (inbound configuration write cycle) can occur in any of the following
4548 **  parts of the transactions:
4549 **  �E During the initial Delayed Write Request cycle on the PCI bus when the ATU latches the
4550 **  address/command and data for delayed delivery to the internal configuration register.
4551 **  �E During the Delayed Write Completion cycle on the PCI bus when the ATU delivers the status
4552 **  of the operation back to the original master.
4553 **  The 80331 ATU PCI interface has the following responses to a delayed write parity error for
4554 **  inbound transactions during Delayed Write Request cycles with the given constraints:
4555 **  �E When the Parity Error Response bit in the ATUCMD is set, the ATU asserts TRDY#
4556 **  (disconnects with data) and two clock cycles later asserts PERR# notifying the initiator of the
4557 **  parity error. The delayed write cycle is not enqueued and forwarded to the internal bus.
4558 **  When the Parity Error Response bit in the ATUCMD is cleared, the ATU retries the
4559 **  transaction by asserting STOP# and enqueues the Delayed Write Request cycle to be
4560 **  forwarded to the internal bus. PERR# is not asserted.
4561 **  �E The Detected Parity Error bit in the ATUSR is set. When the ATU sets this bit, additional
4562 **  actions is taken:
4563 **  �X When the ATU Detected Parity Error Interrupt Mask bit in the ATUIMR is clear, set the
4564 **  Detected Parity Error bit in the ATUISR. When set, no action.
4565 **  For the original write transaction to be completed, the initiator retries the transaction on the PCI
4566 **  bus and the ATU returns the status from the internal bus, completing the transaction.
4567 **  For the Delayed Write Completion transaction on the PCI bus where a data parity error occurs and
4568 **  therefore does not agree with the status being returned from the internal bus (i.e. status being
4569 **  returned is normal completion) the ATU performs the following actions with the given constraints:
4570 **  �E When the Parity Error Response Bit is set in the ATUCMD, the ATU asserts TRDY#
4571 **  (disconnects with data) and two clocks later asserts PERR#. The Delayed Completion cycle in
4572 **  the IDWQ remains since the data of retried command did not match the data within the queue.
4573 **  �E The Detected Parity Error bit in the ATUSR is set. When the ATU sets this bit, additional
4574 **  actions is taken:
4575 **  �X When the ATU Detected Parity Error Interrupt Mask bit in the ATUIMR is clear, set the
4576 **  Detected Parity Error bit in the ATUISR. When set, no action.
4577 **  ===================================================
4578 **                       PCI-X Mode
4579 **  ===================================================
4580 **  Data parity errors occurring during configuration write operations received by the ATU may cause
4581 **  PERR# assertion and delivery of a Split Completion Error Message on the PCI Bus. When an error
4582 **  occurs, the ATU accepts the write data and complete with a Split Response Termination.
4583 **  Specifically, the following actions with the given constraints are then taken by the ATU:
4584 **  �E When the Parity Error Response bit in the ATUCMD is set, PERR# is asserted three clocks
4585 **  cycles following the Split Response Termination in which the data parity error is detected on
4586 **  the bus. When the ATU asserts PERR#, additional actions is taken:
4587 **  �X A Split Write Data Parity Error message (with message class=2h - completer error and
4588 **  message index=01h - Split Write Data Parity Error) is initiated by the ATU on the PCI bus
4589 **  that addresses the requester of the configuration write.
4590 **  �X When the Initiated Split Completion Error Message Interrupt Mask in the ATUIMR is
4591 **  clear, set the Initiated Split Completion Error Message bit in the ATUISR. When set, no
4592 **  action.
4593 **  �X The Split Write Request is not enqueued and forwarded to the internal bus.
4594 **  �E The Detected Parity Error bit in the ATUSR is set. When the ATU sets this bit, additional
4595 **  actions is taken:
4596 **  �X When the ATU Detected Parity Error Interrupt Mask bit in the ATUIMR is clear, set the
4597 **  Detected Parity Error bit in the ATUISR. When set, no action.
4598 **
4599 ***************************************************************************
4600 */
4601 
4602 /*
4603 ***************************************************************************
4604 **                       Split Completion Messages
4605 **  =======================================================================
4606 **  As a target, the ATU may encounter this error when operating in the PCI-X mode.
4607 **  Data parity errors occurring during Split Completion Messages claimed by the ATU may assert
4608 **  PERR# (when enabled) or SERR# (when enabled) on the PCI Bus. When an error occurs, the
4609 **  ATU accepts the data and complete normally. Specifically, the following actions with the given
4610 **  constraints are taken by the ATU:
4611 **  �E PERR# is asserted three clocks cycles following the data phase in which the data parity error
4612 **  is detected on the bus. This is only done when the Parity Error Response bit in the ATUCMD
4613 **  is set. When the ATU asserts PERR#, additional actions is taken:
4614 **  �X The Master Parity Error bit in the ATUSR is set.
4615 **  �X When the ATU PCI Master Parity Error Interrupt Mask Bit in the ATUIMR is clear, set the
4616 **  PCI Master Parity Error bit in the ATUISR. When set, no action.
4617 **  �X When the SERR# Enable bit in the ATUCMD is set, and the Data Parity Error Recover
4618 **  Enable bit in the PCIXCMD register is clear, assert SERR#; otherwise no action is taken.
4619 **  When the ATU asserts SERR#, additional actions is taken:
4620 **  Set the SERR# Asserted bit in the ATUSR.
4621 **  When the ATU SERR# Asserted Interrupt Mask Bit in the ATUIMR is clear, set the
4622 **  SERR# Asserted bit in the ATUISR. When set, no action.
4623 **  When the ATU SERR# Detected Interrupt Enable Bit in the ATUCR is set, set the
4624 **  SERR# Detected bit in the ATUISR. When clear, no action.
4625 **  �E When the SCE bit (Split Completion Error -- bit 30 of the Completer Attributes) is set during
4626 **  the Attribute phase, the Received Split Completion Error Message bit in the PCIXSR is set.
4627 **  When the ATU sets this bit, additional actions is taken:
4628 **  �X When the ATU Received Split Completion Error Message Interrupt Mask bit in the
4629 **  ATUIMR is clear, set the Received Split Completion Error Message bit in the ATUISR.
4630 **  When set, no action.
4631 **  �E The Detected Parity Error bit in the ATUSR is set. When the ATU sets this bit, additional
4632 **  actions is taken:
4633 **  �X When the ATU Detected Parity Error Interrupt Mask bit in the ATUIMR is clear, set the
4634 **  Detected Parity Error bit in the ATUISR. When set, no action.
4635 **  �E The transaction associated with the Split Completion Message is discarded.
4636 **  �E When the discarded transaction was a read, a completion error message (with message
4637 **  class=2h - completer error and message index=82h - PCI bus read parity error) is generated on
4638 **  the internal bus of the 80331.
4639 *****************************************************************************
4640 */
4641 
4642 /*
4643 ******************************************************************************************************
4644 **                 Messaging Unit (MU) of the Intel R 80331 I/O processor (80331)
4645 **  ==================================================================================================
4646 **	The Messaging Unit (MU) transfers data between the PCI system and the 80331
4647 **  notifies the respective system when new data arrives.
4648 **	The PCI window for messaging transactions is always the first 4 Kbytes of the inbound translation.
4649 **	window defined by:
4650 **                    1.Inbound ATU Base Address Register 0 (IABAR0)
4651 **                    2.Inbound ATU Limit Register 0 (IALR0)
4652 **	All of the Messaging Unit errors are reported in the same manner as ATU errors.
4653 **  Error conditions and status can be found in :
4654 **                                               1.ATUSR
4655 **                                               2.ATUISR
4656 **====================================================================================================
4657 **     Mechanism        Quantity               Assert PCI Interrupt Signals      Generate I/O Processor Interrupt
4658 **----------------------------------------------------------------------------------------------------
4659 **  Message Registers      2 Inbound                   Optional                              Optional
4660 **                         2 Outbound
4661 **----------------------------------------------------------------------------------------------------
4662 **  Doorbell Registers     1 Inbound                   Optional                              Optional
4663 **                         1 Outbound
4664 **----------------------------------------------------------------------------------------------------
4665 **  Circular Queues        4 Circular Queues           Under certain conditions              Under certain conditions
4666 **----------------------------------------------------------------------------------------------------
4667 **  Index Registers     1004 32-bit Memory Locations   No                                    Optional
4668 **====================================================================================================
4669 **     PCI Memory Map: First 4 Kbytes of the ATU Inbound PCI Address Space
4670 **====================================================================================================
4671 **  0000H           Reserved
4672 **  0004H           Reserved
4673 **  0008H           Reserved
4674 **  000CH           Reserved
4675 **------------------------------------------------------------------------
4676 **  0010H 			Inbound Message Register 0              ]
4677 **  0014H 			Inbound Message Register 1              ]
4678 **  0018H 			Outbound Message Register 0             ]
4679 **  001CH 			Outbound Message Register 1             ]   4 Message Registers
4680 **------------------------------------------------------------------------
4681 **  0020H 			Inbound Doorbell Register               ]
4682 **  0024H 			Inbound Interrupt Status Register       ]
4683 **  0028H 			Inbound Interrupt Mask Register         ]
4684 **  002CH 			Outbound Doorbell Register              ]
4685 **  0030H 			Outbound Interrupt Status Register      ]
4686 **  0034H 			Outbound Interrupt Mask Register        ]   2 Doorbell Registers and 4 Interrupt Registers
4687 **------------------------------------------------------------------------
4688 **  0038H 			Reserved
4689 **  003CH 			Reserved
4690 **------------------------------------------------------------------------
4691 **  0040H 			Inbound Queue Port                      ]
4692 **  0044H 			Outbound Queue Port                     ]   2 Queue Ports
4693 **------------------------------------------------------------------------
4694 **  0048H 			Reserved
4695 **  004CH 			Reserved
4696 **------------------------------------------------------------------------
4697 **  0050H                                                   ]
4698 **    :                                                     ]
4699 **    :      Intel Xscale Microarchitecture Local Memory    ]
4700 **    :                                                     ]
4701 **  0FFCH                                                   ]   1004 Index Registers
4702 *******************************************************************************
4703 */
4704 /*
4705 *****************************************************************************
4706 **                      Theory of MU Operation
4707 *****************************************************************************
4708 **--------------------
4709 **   inbound_msgaddr0:
4710 **   inbound_msgaddr1:
4711 **  outbound_msgaddr0:
4712 **  outbound_msgaddr1:
4713 **  .  The MU has four independent messaging mechanisms.
4714 **     There are four Message Registers that are similar to a combination of mailbox and doorbell registers.
4715 **     Each holds a 32-bit value and generates an interrupt when written.
4716 **--------------------
4717 **   inbound_doorbell:
4718 **  outbound_doorbell:
4719 **  .  The two Doorbell Registers support software interrupts.
4720 **     When a bit is set in a Doorbell Register, an interrupt is generated.
4721 **--------------------
4722 **  inbound_queueport:
4723 ** outbound_queueport:
4724 **
4725 **
4726 **  .  The Circular Queues support a message passing scheme that uses 4 circular queues.
4727 **     The 4 circular queues are implemented in 80331 local memory.
4728 **     Two queues are used for inbound messages and two are used for outbound messages.
4729 **     Interrupts may be generated when the queue is written.
4730 **--------------------
4731 ** local_buffer 0x0050 ....0x0FFF
4732 **  .  The Index Registers use a portion of the 80331 local memory to implement a large set of message registers.
4733 **     When one of the Index Registers is written, an interrupt is generated and the address of the register written is captured.
4734 **     Interrupt status for all interrupts is recorded in the Inbound Interrupt Status Register and the Outbound Interrupt Status Register.
4735 **     Each interrupt generated by the Messaging Unit can be masked.
4736 **--------------------
4737 **  .  Multi-DWORD PCI burst accesses are not supported by the Messaging Unit,
4738 **     with the exception of Multi-DWORD reads to the index registers.
4739 **     In Conventional mode: the MU terminates   Multi-DWORD PCI transactions
4740 **     (other than index register reads) with a disconnect at the next Qword boundary, with the exception of queue ports.
4741 **     In PCI-X mode       : the MU terminates a Multi-DWORD PCI read transaction with a Split Response
4742 **     and the data is returned through split completion transaction(s).
4743 **     however, when the burst request crosses into or through the range of  offsets 40h to 4Ch
4744 **     (e.g., this includes the queue ports) the transaction is signaled target-abort immediately on the PCI bus.
4745 **     In PCI-X mode, Multi-DWORD PCI writes is signaled a Single-Data-Phase Disconnect
4746 **     which means that no data beyond the first Qword (Dword when the MU does not assert P_ACK64#) is written.
4747 **--------------------
4748 **  .  All registers needed to configure and control the Messaging Unit are memory-mapped registers.
4749 **     The MU uses the first 4 Kbytes of the inbound translation window in the Address Translation Unit (ATU).
4750 **     This PCI address window is used for PCI transactions that access the 80331 local memory.
4751 **     The  PCI address of the inbound translation window is contained in the Inbound ATU Base Address Register.
4752 **--------------------
4753 **  .  From the PCI perspective, the Messaging Unit is part of the Address Translation Unit.
4754 **     The Messaging Unit uses the PCI configuration registers of the ATU for control and status information.
4755 **     The Messaging Unit must observe all PCI control bits in the ATU Command Register and ATU Configuration Register.
4756 **     The Messaging Unit reports all PCI errors in the ATU Status Register.
4757 **--------------------
4758 **  .  Parts of the Messaging Unit can be accessed as a 64-bit PCI device.
4759 **     The register interface, message registers, doorbell registers,
4760 **     and index registers returns a P_ACK64# in response to a P_REQ64# on the PCI interface.
4761 **     Up to 1 Qword of data can be read or written per transaction (except Index Register reads).
4762 **     The Inbound and Outbound Queue Ports are always 32-bit addresses and the MU does not assert P_ACK64# to offsets 40H and 44H.
4763 **************************************************************************
4764 */
4765 /*
4766 **************************************************************************
4767 **  Message Registers
4768 **  ==============================
4769 **  . Messages can be sent and received by the 80331 through the use of the Message Registers.
4770 **  . When written, the message registers may cause an interrupt to be generated to either the Intel XScale core or the host processor.
4771 **  . Inbound messages are sent by the host processor and received by the 80331.
4772 **    Outbound messages are sent by the 80331 and received by the host processor.
4773 **  . The interrupt status for outbound messages is recorded in the Outbound Interrupt Status Register.
4774 **    Interrupt status for inbound messages is recorded in the Inbound Interrupt Status Register.
4775 **
4776 **  Inbound Messages:
4777 **  -----------------
4778 **  . When an inbound message register is written by an external PCI agent, an interrupt may be generated to the Intel XScale core.
4779 **  . The interrupt may be masked by the mask bits in the Inbound Interrupt Mask Register.
4780 **  . The Intel XScale core interrupt is recorded in the Inbound Interrupt Status Register.
4781 **    The interrupt causes the Inbound Message Interrupt bit to be set in the Inbound Interrupt Status Register.
4782 **    This is a Read/Clear bit that is set by the MU hardware and cleared by software.
4783 **    The interrupt is cleared when the Intel XScale core writes a value of
4784 **    1 to the Inbound Message Interrupt bit in the Inbound Interrupt Status Register.
4785 **  ------------------------------------------------------------------------
4786 **  Inbound Message Register - IMRx
4787 **
4788 **  . There are two Inbound Message Registers: IMR0 and IMR1.
4789 **  . When the IMR register is written, an interrupt to the Intel XScale core may be generated.
4790 **    The interrupt is recorded in the Inbound Interrupt Status Register and may be masked
4791 **    by the Inbound Message Interrupt Mask bit in the Inbound Interrupt Mask Register.
4792 **  -----------------------------------------------------------------
4793 **  Bit       Default                       Description
4794 **  31:00    0000 0000H                     Inbound Message - This is a 32-bit message written by an external PCI agent.
4795 **                                                            When written, an interrupt to the Intel XScale core may be generated.
4796 **************************************************************************
4797 */
4798 #define     ARCMSR_MU_INBOUND_MESSAGE_REG0		          0x10    /*dword 0x13,0x12,0x11,0x10*/
4799 #define     ARCMSR_MU_INBOUND_MESSAGE_REG1		          0x14    /*dword 0x17,0x16,0x15,0x14*/
4800 /*
4801 **************************************************************************
4802 **  Outbound Message Register - OMRx
4803 **  --------------------------------
4804 **  There are two Outbound Message Registers: OMR0 and OMR1. When the OMR register is
4805 **  written, a PCI interrupt may be generated. The interrupt is recorded in the Outbound Interrupt
4806 **  Status Register and may be masked by the Outbound Message Interrupt Mask bit in the Outbound
4807 **  Interrupt Mask Register.
4808 **
4809 **  Bit       Default                       Description
4810 **  31:00    00000000H                      Outbound Message - This is 32-bit message written by the Intel  XScale  core. When written, an
4811 **                                                             interrupt may be generated on the PCI Interrupt pin determined by the ATU Interrupt Pin Register.
4812 **************************************************************************
4813 */
4814 #define     ARCMSR_MU_OUTBOUND_MESSAGE_REG0		          0x18    /*dword 0x1B,0x1A,0x19,0x18*/
4815 #define     ARCMSR_MU_OUTBOUND_MESSAGE_REG1		          0x1C    /*dword 0x1F,0x1E,0x1D,0x1C*/
4816 /*
4817 **************************************************************************
4818 **        Doorbell Registers
4819 **  ==============================
4820 **  There are two Doorbell Registers:
4821 **                                  Inbound Doorbell Register
4822 **                                  Outbound Doorbell Register
4823 **  The Inbound Doorbell Register allows external PCI agents to generate interrupts to the Intel R XScale core.
4824 **  The Outbound Doorbell Register allows the Intel R XScale core to generate a PCI interrupt.
4825 **  Both Doorbell Registers may generate interrupts whenever a bit in the register is set.
4826 **
4827 **  Inbound Doorbells:
4828 **  ------------------
4829 **  . When the Inbound Doorbell Register is written by an external PCI agent, an interrupt may be generated to the Intel R XScale  core.
4830 **    An interrupt is generated when any of the bits in the doorbell register is written to a value of 1.
4831 **    Writing a value of 0 to any bit does not change the value of that bit and does not cause an interrupt to be generated.
4832 **  . Once a bit is set in the Inbound Doorbell Register, it cannot be cleared by any external PCI agent.
4833 **    The interrupt is recorded in the Inbound Interrupt Status Register.
4834 **  . The interrupt may be masked by the Inbound Doorbell Interrupt mask bit in the Inbound Interrupt Mask Register.
4835 **    When the mask bit is set for a particular bit, no interrupt is generated for that bit.
4836 **    The Inbound Interrupt Mask Register affects only the generation of the normal messaging unit interrupt
4837 **    and not the values written to the Inbound Doorbell Register.
4838 **    One bit in the Inbound Doorbell Register is reserved for an Error Doorbell interrupt.
4839 **  . The interrupt is cleared when the Intel R XScale core writes a value of 1 to the bits in the Inbound Doorbell Register that are set.
4840 **    Writing a value of 0 to any bit does not change the value of that bit and does not clear the interrupt.
4841 **  ------------------------------------------------------------------------
4842 **  Inbound Doorbell Register - IDR
4843 **
4844 **  . The Inbound Doorbell Register (IDR) is used to generate interrupts to the Intel XScale core.
4845 **  . Bit 31 is reserved for generating an Error Doorbell interrupt.
4846 **    When bit 31 is set, an Error interrupt may be generated to the Intel XScale core.
4847 **    All other bits, when set, cause the Normal Messaging Unit interrupt line of the Intel XScale core to be asserted,
4848 **    when the interrupt is not masked by the Inbound Doorbell Interrupt Mask bit in the Inbound Interrupt Mask Register.
4849 **    The bits in the IDR register can only be set by an external PCI agent and can only be cleared by the Intel XScale  core.
4850 **  ------------------------------------------------------------------------
4851 **  Bit       Default                       Description
4852 **  31          0 2                         Error Interrupt - Generate an Error Interrupt to the Intel XScale core.
4853 **  30:00    00000000H                      Normal Interrupt - When any bit is set, generate a Normal interrupt to the Intel XScale core.
4854 **                                                             When all bits are clear, do not generate a Normal Interrupt.
4855 **************************************************************************
4856 */
4857 #define     ARCMSR_MU_INBOUND_DOORBELL_REG		          0x20    /*dword 0x23,0x22,0x21,0x20*/
4858 /*
4859 **************************************************************************
4860 **  Inbound Interrupt Status Register - IISR
4861 **
4862 **  . The Inbound Interrupt Status Register (IISR) contains hardware interrupt status.
4863 **    It records the status of Intel XScale core interrupts generated by the Message Registers, Doorbell Registers, and the Circular Queues.
4864 **    All interrupts are routed to the Normal Messaging Unit interrupt input of the Intel XScale core,
4865 **    except for the Error Doorbell Interrupt and the Outbound Free Queue Full interrupt;
4866 **    these two are routed to the Messaging Unit Error interrupt input.
4867 **    The generation of interrupts recorded in the Inbound Interrupt Status Register
4868 **    may be masked by setting the corresponding bit in the Inbound Interrupt Mask Register.
4869 **    Some of the bits in this register are Read Only.
4870 **    For those bits, the interrupt must be cleared through another register.
4871 **
4872 **  Bit       Default                       Description
4873 **  31:07    0000000H 0 2                   Reserved
4874 **  06          0 2              Index Register Interrupt - This bit is set by the MU hardware
4875 **                               when an Index Register has been written after a PCI transaction.
4876 **  05          0 2              Outbound Free Queue Full Interrupt - This bit is set
4877 **                               when the Outbound Free Head Pointer becomes equal to the Tail Pointer and the queue is full.
4878 **                               An Error interrupt is generated for this condition.
4879 **  04          0 2              Inbound Post Queue Interrupt - This bit is set by the MU hardware when the Inbound Post Queue has been written.
4880 **                               Once cleared, an interrupt does NOT be generated
4881 **                               when the head and tail pointers remain unequal (i.e. queue status is Not Empty).
4882 **                               Therefore, when software leaves any unprocessed messages in the post queue when the interrupt is cleared,
4883 **                               software must retain the information that the Inbound Post queue status is not empty.
4884 **          NOTE: This interrupt is provided with dedicated support in the 80331 Interrupt Controller.
4885 **  03          0 2              Error Doorbell Interrupt - This bit is set when the Error Interrupt of the Inbound Doorbell Register is set.
4886 **                               To clear this bit (and the interrupt), the Error Interrupt bit of the Inbound Doorbell Register must be clear.
4887 **  02          0 2              Inbound Doorbell Interrupt - This bit is set when at least one
4888 **                               Normal Interrupt bit in the Inbound Doorbell Register is set.
4889 **                               To clear this bit (and the interrupt), the Normal Interrupt bits in the Inbound Doorbell Register must all be clear.
4890 **  01          0 2              Inbound Message 1 Interrupt - This bit is set by the MU hardware when the Inbound Message 1 Register has been written.
4891 **  00          0 2              Inbound Message 0 Interrupt - This bit is set by the MU hardware when the Inbound Message 0 Register has been written.
4892 **************************************************************************
4893 */
4894 #define     ARCMSR_MU_INBOUND_INTERRUPT_STATUS_REG	      0x24    /*dword 0x27,0x26,0x25,0x24*/
4895 #define     ARCMSR_MU_INBOUND_INDEX_INT                      0x40
4896 #define     ARCMSR_MU_INBOUND_QUEUEFULL_INT                  0x20
4897 #define     ARCMSR_MU_INBOUND_POSTQUEUE_INT                  0x10
4898 #define     ARCMSR_MU_INBOUND_ERROR_DOORBELL_INT             0x08
4899 #define     ARCMSR_MU_INBOUND_DOORBELL_INT                   0x04
4900 #define     ARCMSR_MU_INBOUND_MESSAGE1_INT                   0x02
4901 #define     ARCMSR_MU_INBOUND_MESSAGE0_INT                   0x01
4902 /*
4903 **************************************************************************
4904 **  Inbound Interrupt Mask Register - IIMR
4905 **
4906 **  . The Inbound Interrupt Mask Register (IIMR) provides the ability to mask Intel XScale core interrupts generated by the Messaging Unit.
4907 **    Each bit in the Mask register corresponds to an interrupt bit in the Inbound Interrupt Status Register.
4908 **    Setting or clearing bits in this register does not affect the Inbound Interrupt Status Register.
4909 **    They only affect the generation of the Intel XScale core interrupt.
4910 **  ------------------------------------------------------------------------
4911 **  Bit       Default                       Description
4912 **  31:07     000000H 0 2                   Reserved
4913 **  06        0 2               Index Register Interrupt Mask - When set, this bit masks the interrupt generated by the MU hardware
4914 **				when an Index Register has been written after a PCI transaction.
4915 **  05        0 2               Outbound Free Queue Full Interrupt Mask - When set, this bit masks the Error interrupt generated
4916 **				when the Outbound Free Head Pointer becomes equal to the Tail Pointer and the queue is full.
4917 **  04        0 2               Inbound Post Queue Interrupt Mask - When set, this bit masks the interrupt generated
4918 **				by the MU hardware when the Inbound Post Queue has been written.
4919 **  03        0 2               Error Doorbell Interrupt Mask - When set, this bit masks the Error Interrupt
4920 **				when the Error Interrupt bit of the Inbound Doorbell Register is set.
4921 **  02        0 2               Inbound Doorbell Interrupt Mask - When set, this bit masks the interrupt generated
4922 **				when at least one Normal Interrupt bit in the Inbound Doorbell Register is set.
4923 **  01        0 2               Inbound Message 1 Interrupt Mask - When set, this bit masks the Inbound Message 1
4924 **				Interrupt generated by a write to the Inbound Message 1 Register.
4925 **  00        0 2               Inbound Message 0 Interrupt Mask - When set,
4926 **                              this bit masks the Inbound Message 0 Interrupt generated by a write to the Inbound Message 0 Register.
4927 **************************************************************************
4928 */
4929 #define     ARCMSR_MU_INBOUND_INTERRUPT_MASK_REG	      0x28    /*dword 0x2B,0x2A,0x29,0x28*/
4930 #define     ARCMSR_MU_INBOUND_INDEX_INTMASKENABLE               0x40
4931 #define     ARCMSR_MU_INBOUND_QUEUEFULL_INTMASKENABLE           0x20
4932 #define     ARCMSR_MU_INBOUND_POSTQUEUE_INTMASKENABLE           0x10
4933 #define     ARCMSR_MU_INBOUND_DOORBELL_ERROR_INTMASKENABLE      0x08
4934 #define     ARCMSR_MU_INBOUND_DOORBELL_INTMASKENABLE            0x04
4935 #define     ARCMSR_MU_INBOUND_MESSAGE1_INTMASKENABLE            0x02
4936 #define     ARCMSR_MU_INBOUND_MESSAGE0_INTMASKENABLE            0x01
4937 /*
4938 **************************************************************************
4939 **  Outbound Doorbell Register - ODR
4940 **
4941 **  The Outbound Doorbell Register (ODR) allows software interrupt generation. It allows the Intel
4942 **  XScale  core to generate PCI interrupts to the host processor by writing to this register. The
4943 **  generation of PCI interrupts through the Outbound Doorbell Register may be masked by setting the
4944 **  Outbound Doorbell Interrupt Mask bit in the Outbound Interrupt Mask Register.
4945 **  The Software Interrupt bits in this register can only be set by the Intel  XScale  core and can only
4946 **  be cleared by an external PCI agent.
4947 **  ----------------------------------------------------------------------
4948 **  Bit       Default                       Description
4949 **  31          0 2                          Reserved
4950 **  30          0 2                          Reserved.
4951 **  29          0 2                          Reserved
4952 **  28       0000 0000H                      PCI Interrupt - When set, this bit causes the P_INTC# interrupt output
4953 **                                                           (P_INTA# with BRG_EN and ARB_EN straps low)
4954 **                                                           signal to be asserted or a Message-signaled Interrupt is generated (when enabled).
4955 **                                                           When this bit is cleared, the P_INTC# interrupt output
4956 **                                                           (P_INTA# with BRG_EN and ARB_EN straps low)
4957 **                                                           signal is deasserted.
4958 **  27:00     000 0000H                      Software Interrupts - When any bit is set the P_INTC# interrupt output
4959 **                                           (P_INTA# with BRG_EN and ARB_EN straps low)
4960 **                                           signal is asserted or a Message-signaled Interrupt is generated (when enabled).
4961 **                                           When all bits are cleared, the P_INTC# interrupt output (P_INTA# with BRG_EN and ARB_EN straps low)
4962 **                                           signal is deasserted.
4963 **************************************************************************
4964 */
4965 #define     ARCMSR_MU_OUTBOUND_DOORBELL_REG		          0x2C    /*dword 0x2F,0x2E,0x2D,0x2C*/
4966 /*
4967 **************************************************************************
4968 **  Outbound Interrupt Status Register - OISR
4969 **
4970 **  The Outbound Interrupt Status Register (OISR) contains hardware interrupt status. It records the
4971 **  status of PCI interrupts generated by the Message Registers, Doorbell Registers, and the Circular
4972 **  Queues. The generation of PCI interrupts recorded in the Outbound Interrupt Status Register may
4973 **  be masked by setting the corresponding bit in the Outbound Interrupt Mask Register. Some of the
4974 **  bits in this register are Read Only. For those bits, the interrupt must be cleared through another
4975 **  register.
4976 **  ----------------------------------------------------------------------
4977 **  Bit       Default                       Description
4978 **  31:05     000000H 000 2                 Reserved
4979 **  04        0 2                           PCI Interrupt - This bit is set when the PCI Interrupt bit (bit 28) is set in the Outbound Doorbell Register.
4980 **                                                          To clear this bit (and the interrupt), the PCI Interrupt bit must be cleared.
4981 **  03        0 2                           Outbound Post Queue Interrupt - This bit is set when data in the prefetch buffer is valid. This bit is
4982 **                                                          cleared when any prefetch data has been read from the Outbound Queue Port.
4983 **  02        0 2                           Outbound Doorbell Interrupt - This bit is set when at least one Software Interrupt bit in the Outbound
4984 **                                          Doorbell Register is set. To clear this bit (and the interrupt), the Software Interrupt bits in the Outbound
4985 **                                          Doorbell Register must all be clear.
4986 **  01        0 2                           Outbound Message 1 Interrupt - This bit is set by the MU when the Outbound Message 1 Register is
4987 **                                                          written. Clearing this bit clears the interrupt.
4988 **  00        0 2                           Outbound Message 0 Interrupt - This bit is set by the MU when the Outbound Message 0 Register is
4989 **                                                          written. Clearing this bit clears the interrupt.
4990 **************************************************************************
4991 */
4992 #define     ARCMSR_MU_OUTBOUND_INTERRUPT_STATUS_REG	      0x30    /*dword 0x33,0x32,0x31,0x30*/
4993 #define     ARCMSR_MU_OUTBOUND_PCI_INT       	              0x10
4994 #define     ARCMSR_MU_OUTBOUND_POSTQUEUE_INT    	          0x08
4995 #define     ARCMSR_MU_OUTBOUND_DOORBELL_INT 		          0x04
4996 #define     ARCMSR_MU_OUTBOUND_MESSAGE1_INT 		          0x02
4997 #define     ARCMSR_MU_OUTBOUND_MESSAGE0_INT 		          0x01
4998 /*
4999 **************************************************************************
5000 **  Outbound Interrupt Mask Register - OIMR
5001 **  The Outbound Interrupt Mask Register (OIMR) provides the ability to mask outbound PCI
5002 **  interrupts generated by the Messaging Unit. Each bit in the mask register corresponds to a
5003 **  hardware interrupt bit in the Outbound Interrupt Status Register. When the bit is set, the PCI
5004 **  interrupt is not generated. When the bit is clear, the interrupt is allowed to be generated.
5005 **  Setting or clearing bits in this register does not affect the Outbound Interrupt Status Register. They
5006 **  only affect the generation of the PCI interrupt.
5007 **  ----------------------------------------------------------------------
5008 **  Bit       Default                       Description
5009 **  31:05     000000H                       Reserved
5010 **  04          0 2                         PCI Interrupt Mask - When set, this bit masks the interrupt generation when the PCI Interrupt bit (bit 28)
5011 **                                                               in the Outbound Doorbell Register is set.
5012 **  03          0 2                         Outbound Post Queue Interrupt Mask - When set, this bit masks the interrupt generated when data in
5013 **                                                               the prefetch buffer is valid.
5014 **  02          0 2                         Outbound Doorbell Interrupt Mask - When set, this bit masks the interrupt generated by the Outbound
5015 **                                                               Doorbell Register.
5016 **  01          0 2                         Outbound Message 1 Interrupt Mask - When set, this bit masks the Outbound Message 1 Interrupt
5017 **                                                               generated by a write to the Outbound Message 1 Register.
5018 **  00          0 2                         Outbound Message 0 Interrupt Mask- When set, this bit masks the Outbound Message 0 Interrupt
5019 **                                                               generated by a write to the Outbound Message 0 Register.
5020 **************************************************************************
5021 */
5022 #define     ARCMSR_MU_OUTBOUND_INTERRUPT_MASK_REG		  0x34    /*dword 0x37,0x36,0x35,0x34*/
5023 #define     ARCMSR_MU_OUTBOUND_PCI_INTMASKENABLE   	          0x10
5024 #define     ARCMSR_MU_OUTBOUND_POSTQUEUE_INTMASKENABLE	      0x08
5025 #define     ARCMSR_MU_OUTBOUND_DOORBELL_INTMASKENABLE		  0x04
5026 #define     ARCMSR_MU_OUTBOUND_MESSAGE1_INTMASKENABLE		  0x02
5027 #define     ARCMSR_MU_OUTBOUND_MESSAGE0_INTMASKENABLE		  0x01
5028 #define     ARCMSR_MU_OUTBOUND_ALL_INTMASKENABLE		      0x1F
5029 /*
5030 **************************************************************************
5031 **
5032 **************************************************************************
5033 */
5034 #define     ARCMSR_MU_INBOUND_QUEUE_PORT_REG        	  0x40    /*dword 0x43,0x42,0x41,0x40*/
5035 #define     ARCMSR_MU_OUTBOUND_QUEUE_PORT_REG  	          0x44    /*dword 0x47,0x46,0x45,0x44*/
5036 /*
5037 **************************************************************************
5038 **                          Circular Queues
5039 **  ======================================================================
5040 **  The MU implements four circular queues. There are 2 inbound queues and 2 outbound queues. In
5041 **  this case, inbound and outbound refer to the direction of the flow of posted messages.
5042 **  Inbound messages are either:
5043 **  						�E posted messages by other processors for the Intel XScale core to process or
5044 **  						�E free (or empty) messages that can be reused by other processors.
5045 **  Outbound messages are either:
5046 ** 							�E posted messages by the Intel XScale core for other processors to process or
5047 ** 							�E free (or empty) messages that can be reused by the Intel XScale core.
5048 **  Therefore, free inbound messages flow away from the 80331 and free outbound messages flow toward the 80331.
5049 **  The four Circular Queues are used to pass messages in the following manner.
5050 **  	. The two inbound queues are used to handle inbound messages
5051 **  	  and the two outbound queues are used to handle  outbound messages.
5052 **  	. One of the inbound queues is designated the Free queue and it contains inbound free messages.
5053 **  	  The other inbound queue is designated the Post queue and it contains inbound posted messages.
5054 **  	  Similarly, one of the outbound queues is designated the Free queue and the other outbound queue is designated the Post queue.
5055 **
5056 **  =============================================================================================================
5057 **  Circular Queue Summary
5058 **   _____________________________________________________________________________________________________________
5059 **  |    Queue Name        |                     Purpose                                |  Action on PCI Interface|
5060 **  |______________________|____________________________________________________________|_________________________|
5061 **  |Inbound Post  Queue   |    Queue for inbound messages from other processors        |          Written        |
5062 **  |                      |     waiting to be processed by the 80331                   |                         |
5063 **  |Inbound Free  Queue   |    Queue for empty inbound messages from the 80331         |          Read           |
5064 **  |                      |    available for use by other processors                   |                         |
5065 **  |Outbound Post Queue   |    Queue for outbound messages from the 80331              |          Read           |
5066 **  |                      |    that are being posted to the other processors           |                         |
5067 **  |Outbound Free Queue   |    Queue for empty outbound messages from other processors |          Written        |
5068 **  |                      |    available for use by the 80331                          |                         |
5069 **  |______________________|____________________________________________________________|_________________________|
5070 **
5071 **  . The two inbound queues allow the host processor to post inbound messages for the 80331 in one
5072 **    queue and to receive free messages returning from the 80331.
5073 **    The host processor posts inbound messages,
5074 **    the Intel XScale core receives the posted message and when it is finished with the message,
5075 **    places it back on the inbound free queue for reuse by the host processor.
5076 **
5077 **  The circular queues are accessed by external PCI agents through two port locations in the PCI
5078 **  address space:
5079 **              Inbound Queue Port
5080 **          and Outbound Queue Port.
5081 **  The Inbound Queue Port is used by external PCI agents to read the Inbound Free Queue and write the Inbound Post Queue.
5082 **  The Outbound Queue Port is used by external PCI agents to read the Outbound Post Queue and write the Outbound Free Queue.
5083 **  Note that a PCI transaction to the inbound or outbound queue ports with null byte enables (P_C/BE[3:0]#=1111 2 )
5084 **  does not cause the MU hardware to increment the queue pointers.
5085 **  This is treated as when the PCI transaction did not occur.
5086 **  The Inbound and Outbound Queue Ports never respond with P_ACK64# on the PCI interface.
5087 **  ======================================================================================
5088 **  Overview of Circular Queue Operation
5089 **  ======================================================================================
5090 **  . The data storage for the circular queues must be provided by the 80331 local memory.
5091 **  . The base address of the circular queues is contained in the Queue Base Address Register.
5092 **    Each entry in the queue is a 32-bit data value.
5093 **  . Each read from or write to the queue may access only one queue entry.
5094 **  . Multi-DWORD accesses to the circular queues are not allowed.
5095 **    Sub-DWORD accesses are promoted to DWORD accesses.
5096 **  . Each circular queue has a head pointer and a tail pointer.
5097 **    The pointers are offsets from the Queue Base Address.
5098 **  . Writes to a queue occur at the head of the queue and reads occur from the tail.
5099 **    The head and tail pointers are incremented by either the Intel XScale core or the Messaging Unit hardware.
5100 **    Which unit maintains the pointer is determined by the writer of the queue.
5101 **    More details about the pointers are given in the queue descriptions below.
5102 **    The pointers are incremented after the queue access.
5103 **    Both pointers wrap around to the first address of the circular queue when they reach the circular queue size.
5104 **
5105 **  Messaging Unit...
5106 **
5107 **  The Messaging Unit generates an interrupt to the Intel XScale core or generate a PCI interrupt under certain conditions.
5108 **  . In general, when a Post queue is written, an interrupt is generated to notify the receiver that a message was posted.
5109 **    The size of each circular queue can range from 4K entries (16 Kbytes) to 64K entries (256 Kbytes).
5110 **  . All four queues must be the same size and may be contiguous.
5111 **    Therefore, the total amount of local memory needed by the circular queues ranges from 64 Kbytes to 1 Mbytes.
5112 **    The Queue size is determined by the Queue Size field in the MU Configuration Register.
5113 **  . There is one base address for all four queues.
5114 **    It is stored in the Queue Base Address Register (QBAR).
5115 **    The starting addresses of each queue is based on the Queue Base Address and the Queue Size field.
5116 **    here shows an example of how the circular queues should be set up based on the
5117 **    Intelligent I/O (I 2 O) Architecture Specification.
5118 **    Other ordering of the circular queues is possible.
5119 **
5120 **  				Queue                           Starting Address
5121 **  				Inbound Free Queue              QBAR
5122 **  				Inbound Post Queue              QBAR + Queue Size
5123 **  				Outbound Post Queue             QBAR + 2 * Queue Size
5124 **  				Outbound Free Queue             QBAR + 3 * Queue Size
5125 **  ===================================================================================
5126 **  Inbound Post Queue
5127 **  ------------------
5128 **  The Inbound Post Queue holds posted messages placed there by other processors for the Intel XScale core to process.
5129 **  This queue is read from the queue tail by the Intel XScale core. It is written to the queue head by external PCI agents.
5130 **  The tail pointer is maintained by the Intel XScale core. The head pointer is maintained by the MU hardware.
5131 **  For a PCI write transaction that accesses the Inbound Queue Port,
5132 **  the MU writes the data to the local memory location address in the Inbound Post Head Pointer Register.
5133 **  When the data written to the Inbound Queue Port is written to local memory, the MU hardware increments the Inbound Post Head Pointer Register.
5134 **  An Intel XScale core interrupt may be generated when the Inbound Post Queue is written.
5135 **  The Inbound Post Queue Interrupt bit in the Inbound Interrupt Status Register indicates the interrupt status.
5136 **  The interrupt is cleared when the Inbound Post Queue Interrupt bit is cleared.
5137 **  The interrupt can be masked by the Inbound Interrupt Mask Register.
5138 **  Software must be aware of the state of the Inbound Post Queue Interrupt Mask bit to guarantee
5139 **  that the full condition is recognized by the core processor.
5140 **  In addition, to guarantee that the queue does not get overwritten,
5141 **  software must process messages from the tail of the queue before incrementing the tail pointer and clearing this interrupt.
5142 **  Once cleared, an interrupt is NOT generated when the head and tail pointers remain unequal (i.e. queue status is Not Empty).
5143 **  Only a new message posting the in the inbound queue generates a new interrupt.
5144 **  Therefore, when software leaves any unprocessed messages in the post queue when the interrupt is cleared,
5145 **  software must retain the information that the Inbound Post queue status.
5146 **  From the time that the PCI write transaction is received until the data is written
5147 **  in local memory and the Inbound Post Head Pointer Register is incremented,
5148 **  any PCI transaction that attempts to access the Inbound Post Queue Port is signalled a Retry.
5149 **  The Intel XScale core may read messages from the Inbound Post Queue
5150 **  by reading the data from the local memory location pointed to by the Inbound Post Tail Pointer Register.
5151 **  The Intel XScale core must then increment the Inbound Post Tail Pointer Register.
5152 **  When the Inbound Post Queue is full (head and tail pointers are equal and the head pointer was last updated by hardware),
5153 **  the hardware retries any PCI writes until a slot in the queue becomes available.
5154 **  A slot in the post queue becomes available by the Intel XScale core incrementing the tail pointer.
5155 **  ===================================================================================
5156 **  Inbound Free Queue
5157 **  ------------------
5158 **  The Inbound Free Queue holds free inbound messages placed there by the Intel XScale core for other processors to use.
5159 **  This queue is read from the queue tail by external PCI agents.
5160 **  It is written to the queue head by the Intel XScale core.
5161 **  The tail pointer is maintained by the MU hardware.
5162 **  The head pointer is maintained by the Intel XScale core.
5163 **  For a PCI read transaction that accesses the Inbound Queue Port,
5164 **  the MU attempts to read the data at the local memory address in the Inbound Free Tail Pointer.
5165 **  When the queue is not empty (head and tail pointers are not equal)
5166 **  or full (head and tail pointers are equal but the head pointer was last written by software), the data is returned.
5167 **  When the queue is empty (head and tail pointers are equal and the head pointer was last updated by hardware),
5168 **  the value of -1 (FFFF.FFFFH) is  returned.
5169 **  When the queue was not empty and the MU succeeded in returning the data at the tail,
5170 **  the MU hardware must increment the value in the Inbound Free Tail Pointer Register.
5171 **  To reduce latency for the PCI read access, the MU implements a prefetch mechanism to anticipate accesses to the Inbound Free Queue.
5172 **  The MU hardware prefetches the data at the tail of the Inbound Free Queue and load it into an internal prefetch register.
5173 **  When the PCI read access occurs, the data is read directly from the prefetch register.
5174 **  The prefetch mechanism loads a value of -1 (FFFF.FFFFH) into the prefetch register
5175 **  when the head and tail pointers are equal and the queue is empty.
5176 **  In order to update the prefetch register when messages are added to the queue and it becomes non-empty,
5177 **  the prefetch mechanism automatically starts a prefetch when the prefetch register contains FFFF.FFFFH
5178 **  and the Inbound Free Head Pointer Register is written.
5179 **  The Intel XScale core needs to update the Inbound Free Head Pointer Register when it adds messages to the queue.
5180 **  A prefetch must appear atomic from the perspective of the external PCI agent.
5181 **  When a prefetch is started, any PCI transaction that attempts to access the Inbound Free Queue is signalled a Retry until the prefetch is completed.
5182 **  The Intel XScale core may place messages in the Inbound Free Queue by writing the data to the
5183 **  local memory location pointed to by the Inbound Free Head Pointer Register.
5184 **  The processor must then increment the Inbound Free Head Pointer Register.
5185 **  ==================================================================================
5186 **  Outbound Post Queue
5187 **  -------------------
5188 **  The Outbound Post Queue holds outbound posted messages placed there by the Intel XScale
5189 **  core for other processors to process. This queue is read from the queue tail by external PCI agents.
5190 **  It is written to the queue head by the Intel XScale  core. The tail pointer is maintained by the
5191 **  MU hardware. The head pointer is maintained by the Intel XScale  core.
5192 **  For a PCI read transaction that accesses the Outbound Queue Port, the MU attempts to read the
5193 **  data at the local memory address in the Outbound Post Tail Pointer Register. When the queue is not
5194 **  empty (head and tail pointers are not equal) or full (head and tail pointers are equal but the head
5195 **  pointer was last written by software), the data is returned. When the queue is empty (head and tail
5196 **  pointers are equal and the head pointer was last updated by hardware), the value of -1
5197 **  (FFFF.FFFFH) is returned. When the queue was not empty and the MU succeeded in returning the
5198 **  data at the tail, the MU hardware must increment the value in the Outbound Post Tail Pointer
5199 **  Register.
5200 **  To reduce latency for the PCI read access, the MU implements a prefetch mechanism to anticipate
5201 **  accesses to the Outbound Post Queue. The MU hardware prefetches the data at the tail of the
5202 **  Outbound Post Queue and load it into an internal prefetch register. When the PCI read access
5203 **  occurs, the data is read directly from the prefetch register.
5204 **  The prefetch mechanism loads a value of -1 (FFFF.FFFFH) into the prefetch register when the head
5205 **  and tail pointers are equal and the queue is empty. In order to update the prefetch register when
5206 **  messages are added to the queue and it becomes non-empty, the prefetch mechanism automatically
5207 **  starts a prefetch when the prefetch register contains FFFF.FFFFH and the Outbound Post Head
5208 **  Pointer Register is written. The Intel XScale  core needs to update the Outbound Post Head
5209 **  Pointer Register when it adds messages to the queue.
5210 **  A prefetch must appear atomic from the perspective of the external PCI agent. When a prefetch is
5211 **  started, any PCI transaction that attempts to access the Outbound Post Queue is signalled a Retry
5212 **  until the prefetch is completed.
5213 **  A PCI interrupt may be generated when data in the prefetch buffer is valid. When the prefetch
5214 **  queue is clear, no interrupt is generated. The Outbound Post Queue Interrupt bit in the Outbound
5215 **  Interrupt Status Register shall indicate the status of the prefetch buffer data and therefore the
5216 **  interrupt status. The interrupt is cleared when any prefetched data has been read from the Outbound
5217 **  Queue Port. The interrupt can be masked by the Outbound Interrupt Mask Register.
5218 **  The Intel XScale  core may place messages in the Outbound Post Queue by writing the data to
5219 **  the local memory address in the Outbound Post Head Pointer Register. The processor must then
5220 **  increment the Outbound Post Head Pointer Register.
5221 **  ==================================================
5222 **  Outbound Free Queue
5223 **  -----------------------
5224 **  The Outbound Free Queue holds free messages placed there by other processors for the Intel
5225 **  XScale  core to use. This queue is read from the queue tail by the Intel XScale  core. It is
5226 **  written to the queue head by external PCI agents. The tail pointer is maintained by the Intel
5227 **  XScale  core. The head pointer is maintained by the MU hardware.
5228 **  For a PCI write transaction that accesses the Outbound Queue Port, the MU writes the data to the
5229 **  local memory address in the Outbound Free Head Pointer Register. When the data written to the
5230 **  Outbound Queue Port is written to local memory, the MU hardware increments the Outbound Free
5231 **  Head Pointer Register.
5232 **  When the head pointer and the tail pointer become equal and the queue is full, the MU may signal
5233 **  an interrupt to the Intel XScale  core to register the queue full condition. This interrupt is
5234 **  recorded in the Inbound Interrupt Status Register. The interrupt is cleared when the Outbound Free
5235 **  Queue Full Interrupt bit is cleared and not by writing to the head or tail pointers. The interrupt can
5236 **  be masked by the Inbound Interrupt Mask Register. Software must be aware of the state of the
5237 **  Outbound Free Queue Interrupt Mask bit to guarantee that the full condition is recognized by the
5238 **  core processor.
5239 **  From the time that a PCI write transaction is received until the data is written in local memory and
5240 **  the Outbound Free Head Pointer Register is incremented, any PCI transaction that attempts to
5241 **  access the Outbound Free Queue Port is signalled a retry.
5242 **  The Intel XScale  core may read messages from the Outbound Free Queue by reading the data
5243 **  from the local memory address in the Outbound Free Tail Pointer Register. The processor must
5244 **  then increment the Outbound Free Tail Pointer Register. When the Outbound Free Queue is full,
5245 **  the hardware must retry any PCI writes until a slot in the queue becomes available.
5246 **
5247 **  ==================================================================================
5248 **  Circular Queue Summary
5249 **  ----------------------
5250 **  ________________________________________________________________________________________________________________________________________________
5251 ** | Queue Name  |  PCI Port     |Generate PCI Interrupt |Generate Intel Xscale Core Interrupt|Head Pointer maintained by|Tail Pointer maintained by|
5252 ** |_____________|_______________|_______________________|____________________________________|__________________________|__________________________|
5253 ** |Inbound Post | Inbound Queue |                       |                                    |                          |                          |
5254 ** |    Queue    |     Port      |          NO           |      Yes, when queue is written    |         MU hardware      |     Intel XScale         |
5255 ** |_____________|_______________|_______________________|____________________________________|__________________________|__________________________|
5256 ** |Inbound Free | Inbound Queue |                       |                                    |                          |                          |
5257 ** |    Queue    |     Port      |          NO           |      NO                            |        Intel XScale      |      MU hardware         |
5258 ** |_____________|_______________|_______________________|____________________________________|__________________________|__________________________|
5259 ** ==================================================================================
5260 **  Circular Queue Status Summary
5261 **  ----------------------
5262 **  ____________________________________________________________________________________________________
5263 ** |     Queue Name      |  Queue Status  | Head & Tail Pointer |         Last Pointer Update           |
5264 ** |_____________________|________________|_____________________|_______________________________________|
5265 ** | Inbound Post Queue  |      Empty     |       Equal         | Tail pointer last updated by software |
5266 ** |_____________________|________________|_____________________|_______________________________________|
5267 ** | Inbound Free Queue  |      Empty     |       Equal         | Head pointer last updated by hardware |
5268 ** |_____________________|________________|_____________________|_______________________________________|
5269 **************************************************************************
5270 */
5271 
5272 /*
5273 **************************************************************************
5274 **       Index Registers
5275 **  ========================
5276 **  . The Index Registers are a set of 1004 registers that when written by an external PCI agent can generate an interrupt to the Intel XScale core.
5277 **    These registers are for inbound messages only.
5278 **    The interrupt is recorded in the Inbound Interrupt Status Register.
5279 **    The storage for the Index Registers is allocated from the 80331 local memory.
5280 **    PCI write accesses to the Index Registers write the data to local memory.
5281 **    PCI read accesses to the Index Registers read the data from local memory.
5282 **  . The local memory used for the Index Registers ranges from Inbound ATU Translate Value Register + 050H
5283 **                                                           to Inbound ATU Translate Value Register + FFFH.
5284 **  . The address of the first write access is stored in the Index Address Register.
5285 **    This register is written during the earliest write access and provides a means to determine which Index Register was written.
5286 **    Once updated by the MU, the Index Address Register is not updated until the Index Register
5287 **    Interrupt bit in the Inbound Interrupt Status Register is cleared.
5288 **  . When the interrupt is cleared, the Index Address Register is re-enabled and stores the address of the next Index Register write access.
5289 **    Writes by the Intel XScale core to the local memory used by the Index Registers
5290 **    does not cause an interrupt and does not update the Index Address Register.
5291 **  . The index registers can be accessed with Multi-DWORD reads and single QWORD aligned writes.
5292 **************************************************************************
5293 */
5294 /*
5295 **************************************************************************
5296 **    Messaging Unit Internal Bus Memory Map
5297 **  =======================================
5298 **  Internal Bus Address___Register Description (Name)____________________|_PCI Configuration Space Register Number_
5299 **  FFFF E300H             reserved                                       |
5300 **    ..                     ..                                           |
5301 **  FFFF E30CH             reserved                                       |
5302 **  FFFF E310H             Inbound Message Register 0                     | Available through
5303 **  FFFF E314H             Inbound Message Register 1                     | ATU Inbound Translation Window
5304 **  FFFF E318H             Outbound Message Register 0                    |
5305 **  FFFF E31CH             Outbound Message Register 1                    | or
5306 **  FFFF E320H             Inbound Doorbell Register                      |
5307 **  FFFF E324H             Inbound Interrupt Status Register              | must translate PCI address to
5308 **  FFFF E328H             Inbound Interrupt Mask Register                | the Intel Xscale Core
5309 **  FFFF E32CH             Outbound Doorbell Register                     | Memory-Mapped Address
5310 **  FFFF E330H             Outbound Interrupt Status Register             |
5311 **  FFFF E334H             Outbound Interrupt Mask Register               |
5312 **  ______________________________________________________________________|________________________________________
5313 **  FFFF E338H             reserved                                       |
5314 **  FFFF E33CH             reserved                                       |
5315 **  FFFF E340H             reserved                                       |
5316 **  FFFF E344H             reserved                                       |
5317 **  FFFF E348H             reserved                                       |
5318 **  FFFF E34CH             reserved                                       |
5319 **  FFFF E350H             MU Configuration Register                      |
5320 **  FFFF E354H             Queue Base Address Register                    |
5321 **  FFFF E358H             reserved                                       |
5322 **  FFFF E35CH             reserved                                       | must translate PCI address to
5323 **  FFFF E360H             Inbound Free Head Pointer Register             | the Intel Xscale Core
5324 **  FFFF E364H             Inbound Free Tail Pointer Register             | Memory-Mapped Address
5325 **  FFFF E368H             Inbound Post Head pointer Register             |
5326 **  FFFF E36CH             Inbound Post Tail Pointer Register             |
5327 **  FFFF E370H             Outbound Free Head Pointer Register            |
5328 **  FFFF E374H             Outbound Free Tail Pointer Register            |
5329 **  FFFF E378H             Outbound Post Head pointer Register            |
5330 **  FFFF E37CH             Outbound Post Tail Pointer Register            |
5331 **  FFFF E380H             Index Address Register                         |
5332 **  FFFF E384H             reserved                                       |
5333 **   ..                       ..                                          |
5334 **  FFFF E3FCH             reserved                                       |
5335 **  ______________________________________________________________________|_______________________________________
5336 **************************************************************************
5337 */
5338 /*
5339 **************************************************************************
5340 **  MU Configuration Register - MUCR  FFFF.E350H
5341 **
5342 **  . The MU Configuration Register (MUCR) contains the Circular Queue Enable bit and the size of one Circular Queue.
5343 **  . The Circular Queue Enable bit enables or disables the Circular Queues.
5344 **    The Circular Queues are disabled at reset to allow the software to initialize the head
5345 **    and tail pointer registers before any PCI accesses to the Queue Ports.
5346 **  . Each Circular Queue may range from 4 K entries (16 Kbytes) to 64 K entries (256 Kbytes) and there are four Circular Queues.
5347 **  ------------------------------------------------------------------------
5348 **  Bit       Default                       Description
5349 **  31:06     000000H 00 2                  Reserved
5350 **  05:01     00001 2                       Circular Queue Size - This field determines the size of each Circular Queue.
5351 **  					All four queues are the same size.
5352 **  					�E 00001 2 - 4K Entries (16 Kbytes)
5353 **  					�E 00010 2 - 8K Entries (32 Kbytes)
5354 **  					�E 00100 2 - 16K Entries (64 Kbytes)
5355 **  					�E 01000 2 - 32K Entries (128 Kbytes)
5356 **  					�E 10000 2 - 64K Entries (256 Kbytes)
5357 **  00        0 2                       Circular Queue Enable - This bit enables or disables the Circular Queues. When clear the Circular
5358 **  					Queues are disabled, however the MU accepts PCI accesses to the Circular Queue Ports but ignores
5359 ** 					the data for Writes and return FFFF.FFFFH for Reads. Interrupts are not generated to the core when
5360 ** 					disabled. When set, the Circular Queues are fully enabled.
5361 **************************************************************************
5362 */
5363 #define     ARCMSR_MU_CONFIGURATION_REG  	          0xFFFFE350
5364 #define     ARCMSR_MU_CIRCULAR_QUEUE_SIZE64K  	          0x0020
5365 #define     ARCMSR_MU_CIRCULAR_QUEUE_SIZE32K  	          0x0010
5366 #define     ARCMSR_MU_CIRCULAR_QUEUE_SIZE16K  	          0x0008
5367 #define     ARCMSR_MU_CIRCULAR_QUEUE_SIZE8K  	          0x0004
5368 #define     ARCMSR_MU_CIRCULAR_QUEUE_SIZE4K  	          0x0002
5369 #define     ARCMSR_MU_CIRCULAR_QUEUE_ENABLE  	          0x0001        /*0:disable 1:enable*/
5370 /*
5371 **************************************************************************
5372 **  Queue Base Address Register - QBAR
5373 **
5374 **  . The Queue Base Address Register (QBAR) contains the local memory address of the Circular Queues.
5375 **    The base address is required to be located on a 1 Mbyte address boundary.
5376 **  . All Circular Queue head and tail pointers are based on the QBAR.
5377 **    When the head and tail pointer registers are read, the Queue Base Address is returned in the upper 12 bits.
5378 **    Writing to the upper 12 bits of the head and tail pointer registers does not affect the Queue Base Address or Queue Base Address Register.
5379 **  Warning:
5380 **         The QBAR must designate a range allocated to the 80331 DDR SDRAM interface
5381 **  ------------------------------------------------------------------------
5382 **  Bit       Default                       Description
5383 **  31:20     000H                          Queue Base Address - Local memory address of the circular queues.
5384 **  19:00     00000H                        Reserved
5385 **************************************************************************
5386 */
5387 #define     ARCMSR_MU_QUEUE_BASE_ADDRESS_REG  	      0xFFFFE354
5388 /*
5389 **************************************************************************
5390 **  Inbound Free Head Pointer Register - IFHPR
5391 **
5392 **  . The Inbound Free Head Pointer Register (IFHPR) contains the local memory offset from
5393 **    the Queue Base Address of the head pointer for the Inbound Free Queue.
5394 **    The Head Pointer must be aligned on a DWORD address boundary.
5395 **    When read, the Queue Base Address is provided in the upper 12 bits of the register.
5396 **    Writes to the upper 12 bits of the register are ignored.
5397 **    This register is maintained by software.
5398 **  ------------------------------------------------------------------------
5399 **  Bit       Default                       Description
5400 **  31:20     000H                          Queue Base Address - Local memory address of the circular queues.
5401 **  19:02     0000H 00 2                    Inbound Free Head Pointer - Local memory offset of the head pointer for the Inbound Free Queue.
5402 **  01:00     00 2                          Reserved
5403 **************************************************************************
5404 */
5405 #define     ARCMSR_MU_INBOUND_FREE_HEAD_PTR_REG       0xFFFFE360
5406 /*
5407 **************************************************************************
5408 **  Inbound Free Tail Pointer Register - IFTPR
5409 **
5410 **  . The Inbound Free Tail Pointer Register (IFTPR) contains the local memory offset from the Queue
5411 **    Base Address of the tail pointer for the Inbound Free Queue. The Tail Pointer must be aligned on a
5412 **    DWORD address boundary. When read, the Queue Base Address is provided in the upper 12 bits
5413 **    of the register. Writes to the upper 12 bits of the register are ignored.
5414 **  ------------------------------------------------------------------------
5415 **  Bit       Default                       Description
5416 **  31:20     000H                          Queue Base Address - Local memory address of the circular queues.
5417 **  19:02     0000H 00 2                    Inbound Free Tail Pointer - Local memory offset of the tail pointer for the Inbound Free Queue.
5418 **  01:00     00 2                          Reserved
5419 **************************************************************************
5420 */
5421 #define     ARCMSR_MU_INBOUND_FREE_TAIL_PTR_REG       0xFFFFE364
5422 /*
5423 **************************************************************************
5424 **  Inbound Post Head Pointer Register - IPHPR
5425 **
5426 **  . The Inbound Post Head Pointer Register (IPHPR) contains the local memory offset from the Queue
5427 **    Base Address of the head pointer for the Inbound Post Queue. The Head Pointer must be aligned on
5428 **    a DWORD address boundary. When read, the Queue Base Address is provided in the upper 12 bits
5429 **    of the register. Writes to the upper 12 bits of the register are ignored.
5430 **  ------------------------------------------------------------------------
5431 **  Bit       Default                       Description
5432 **  31:20     000H                          Queue Base Address - Local memory address of the circular queues.
5433 **  19:02     0000H 00 2                    Inbound Post Head Pointer - Local memory offset of the head pointer for the Inbound Post Queue.
5434 **  01:00     00 2                          Reserved
5435 **************************************************************************
5436 */
5437 #define     ARCMSR_MU_INBOUND_POST_HEAD_PTR_REG       0xFFFFE368
5438 /*
5439 **************************************************************************
5440 **  Inbound Post Tail Pointer Register - IPTPR
5441 **
5442 **  . The Inbound Post Tail Pointer Register (IPTPR) contains the local memory offset from the Queue
5443 **    Base Address of the tail pointer for the Inbound Post Queue. The Tail Pointer must be aligned on a
5444 **    DWORD address boundary. When read, the Queue Base Address is provided in the upper 12 bits
5445 **    of the register. Writes to the upper 12 bits of the register are ignored.
5446 **  ------------------------------------------------------------------------
5447 **  Bit       Default                       Description
5448 **  31:20     000H                          Queue Base Address - Local memory address of the circular queues.
5449 **  19:02     0000H 00 2                    Inbound Post Tail Pointer - Local memory offset of the tail pointer for the Inbound Post Queue.
5450 **  01:00     00 2                          Reserved
5451 **************************************************************************
5452 */
5453 #define     ARCMSR_MU_INBOUND_POST_TAIL_PTR_REG       0xFFFFE36C
5454 /*
5455 **************************************************************************
5456 **  Index Address Register - IAR
5457 **
5458 **  . The Index Address Register (IAR) contains the offset of the least recently accessed Index Register.
5459 **    It is written by the MU when the Index Registers are written by a PCI agent.
5460 **    The register is not updated until the Index Interrupt bit in the Inbound Interrupt Status Register is cleared.
5461 **  . The local memory address of the Index Register least recently accessed is computed
5462 **    by adding the Index Address Register to the Inbound ATU Translate Value Register.
5463 **  ------------------------------------------------------------------------
5464 **  Bit       Default                       Description
5465 **  31:12     000000H                       Reserved
5466 **  11:02     00H 00 2                      Index Address - is the local memory offset of the Index Register written (050H to FFCH)
5467 **  01:00     00 2                          Reserved
5468 **************************************************************************
5469 */
5470 #define     ARCMSR_MU_LOCAL_MEMORY_INDEX_REG  	      0xFFFFE380    /*1004 dwords 0x0050....0x0FFC, 4016 bytes 0x0050...0x0FFF*/
5471 /*
5472 **********************************************************************************************************
5473 **                                RS-232 Interface for Areca Raid Controller
5474 **                    The low level command interface is exclusive with VT100 terminal
5475 **  --------------------------------------------------------------------
5476 **    1. Sequence of command execution
5477 **  --------------------------------------------------------------------
5478 **    	(A) Header : 3 bytes sequence (0x5E, 0x01, 0x61)
5479 **    	(B) Command block : variable length of data including length, command code, data and checksum byte
5480 **    	(C) Return data : variable length of data
5481 **  --------------------------------------------------------------------
5482 **    2. Command block
5483 **  --------------------------------------------------------------------
5484 **    	(A) 1st byte : command block length (low byte)
5485 **    	(B) 2nd byte : command block length (high byte)
5486 **                note ..command block length shouldn't > 2040 bytes, length excludes these two bytes
5487 **    	(C) 3rd byte : command code
5488 **    	(D) 4th and following bytes : variable length data bytes depends on command code
5489 **    	(E) last byte : checksum byte (sum of 1st byte until last data byte)
5490 **  --------------------------------------------------------------------
5491 **    3. Command code and associated data
5492 **  --------------------------------------------------------------------
5493 **    	The following are command code defined in raid controller Command code 0x10--0x1? are used for system level management,
5494 **    	no password checking is needed and should be implemented in separate well controlled utility and not for end user access.
5495 **    	Command code 0x20--0x?? always check the password, password must be entered to enable these command.
5496 **    	enum
5497 **    	{
5498 **    		GUI_SET_SERIAL=0x10,
5499 **    		GUI_SET_VENDOR,
5500 **    		GUI_SET_MODEL,
5501 **    		GUI_IDENTIFY,
5502 **    		GUI_CHECK_PASSWORD,
5503 **    		GUI_LOGOUT,
5504 **    		GUI_HTTP,
5505 **    		GUI_SET_ETHERNET_ADDR,
5506 **    		GUI_SET_LOGO,
5507 **    		GUI_POLL_EVENT,
5508 **    		GUI_GET_EVENT,
5509 **    		GUI_GET_HW_MONITOR,
5510 **
5511 **    		//    GUI_QUICK_CREATE=0x20, (function removed)
5512 **    		GUI_GET_INFO_R=0x20,
5513 **    		GUI_GET_INFO_V,
5514 **    		GUI_GET_INFO_P,
5515 **    		GUI_GET_INFO_S,
5516 **    		GUI_CLEAR_EVENT,
5517 **
5518 **    		GUI_MUTE_BEEPER=0x30,
5519 **    		GUI_BEEPER_SETTING,
5520 **    		GUI_SET_PASSWORD,
5521 **    		GUI_HOST_INTERFACE_MODE,
5522 **    		GUI_REBUILD_PRIORITY,
5523 **    		GUI_MAX_ATA_MODE,
5524 **    		GUI_RESET_CONTROLLER,
5525 **    		GUI_COM_PORT_SETTING,
5526 **    		GUI_NO_OPERATION,
5527 **    		GUI_DHCP_IP,
5528 **
5529 **    		GUI_CREATE_PASS_THROUGH=0x40,
5530 **    		GUI_MODIFY_PASS_THROUGH,
5531 **    		GUI_DELETE_PASS_THROUGH,
5532 **    		GUI_IDENTIFY_DEVICE,
5533 **
5534 **    		GUI_CREATE_RAIDSET=0x50,
5535 **    		GUI_DELETE_RAIDSET,
5536 **    		GUI_EXPAND_RAIDSET,
5537 **    		GUI_ACTIVATE_RAIDSET,
5538 **    		GUI_CREATE_HOT_SPARE,
5539 **    		GUI_DELETE_HOT_SPARE,
5540 **
5541 **    		GUI_CREATE_VOLUME=0x60,
5542 **    		GUI_MODIFY_VOLUME,
5543 **    		GUI_DELETE_VOLUME,
5544 **    		GUI_START_CHECK_VOLUME,
5545 **    		GUI_STOP_CHECK_VOLUME
5546 **    	};
5547 **
5548 **    Command description :
5549 **
5550 **    	GUI_SET_SERIAL : Set the controller serial#
5551 **    		byte 0,1        : length
5552 **    		byte 2          : command code 0x10
5553 **    		byte 3          : password length (should be 0x0f)
5554 **    		byte 4-0x13     : should be "ArEcATecHnoLogY"
5555 **    		byte 0x14--0x23 : Serial number string (must be 16 bytes)
5556 **      GUI_SET_VENDOR : Set vendor string for the controller
5557 **    		byte 0,1        : length
5558 **    		byte 2          : command code 0x11
5559 **    		byte 3          : password length (should be 0x08)
5560 **    		byte 4-0x13     : should be "ArEcAvAr"
5561 **    		byte 0x14--0x3B : vendor string (must be 40 bytes)
5562 **      GUI_SET_MODEL : Set the model name of the controller
5563 **    		byte 0,1        : length
5564 **    		byte 2          : command code 0x12
5565 **    		byte 3          : password length (should be 0x08)
5566 **    		byte 4-0x13     : should be "ArEcAvAr"
5567 **    		byte 0x14--0x1B : model string (must be 8 bytes)
5568 **      GUI_IDENTIFY : Identify device
5569 **    		byte 0,1        : length
5570 **    		byte 2          : command code 0x13
5571 **    		                  return "Areca RAID Subsystem "
5572 **      GUI_CHECK_PASSWORD : Verify password
5573 **    		byte 0,1        : length
5574 **    		byte 2          : command code 0x14
5575 **    		byte 3          : password length
5576 **    		byte 4-0x??     : user password to be checked
5577 **      GUI_LOGOUT : Logout GUI (force password checking on next command)
5578 **    		byte 0,1        : length
5579 **    		byte 2          : command code 0x15
5580 **      GUI_HTTP : HTTP interface (reserved for Http proxy service)(0x16)
5581 **
5582 **      GUI_SET_ETHERNET_ADDR : Set the ethernet MAC address
5583 **    		byte 0,1        : length
5584 **    		byte 2          : command code 0x17
5585 **    		byte 3          : password length (should be 0x08)
5586 **    		byte 4-0x13     : should be "ArEcAvAr"
5587 **    		byte 0x14--0x19 : Ethernet MAC address (must be 6 bytes)
5588 **      GUI_SET_LOGO : Set logo in HTTP
5589 **    		byte 0,1        : length
5590 **    		byte 2          : command code 0x18
5591 **    		byte 3          : Page# (0/1/2/3) (0xff --> clear OEM logo)
5592 **    		byte 4/5/6/7    : 0x55/0xaa/0xa5/0x5a
5593 **    		byte 8          : TITLE.JPG data (each page must be 2000 bytes)
5594 **    		                  note .... page0 1st 2 byte must be actual length of the JPG file
5595 **      GUI_POLL_EVENT : Poll If Event Log Changed
5596 **    		byte 0,1        : length
5597 **    		byte 2          : command code 0x19
5598 **      GUI_GET_EVENT : Read Event
5599 **    		byte 0,1        : length
5600 **    		byte 2          : command code 0x1a
5601 **    		byte 3          : Event Page (0:1st page/1/2/3:last page)
5602 **      GUI_GET_HW_MONITOR : Get HW monitor data
5603 **    		byte 0,1        : length
5604 **    		byte 2 			: command code 0x1b
5605 **    		byte 3 			: # of FANs(example 2)
5606 **    		byte 4 			: # of Voltage sensor(example 3)
5607 **    		byte 5 			: # of temperature sensor(example 2)
5608 **    		byte 6 			: # of power
5609 **    		byte 7/8        : Fan#0 (RPM)
5610 **    		byte 9/10       : Fan#1
5611 **    		byte 11/12 		: Voltage#0 original value in *1000
5612 **    		byte 13/14 		: Voltage#0 value
5613 **    		byte 15/16 		: Voltage#1 org
5614 **    		byte 17/18 		: Voltage#1
5615 **    		byte 19/20 		: Voltage#2 org
5616 **    		byte 21/22 		: Voltage#2
5617 **    		byte 23 		: Temp#0
5618 **    		byte 24 		: Temp#1
5619 **    		byte 25 		: Power indicator (bit0 : power#0, bit1 : power#1)
5620 **    		byte 26 		: UPS indicator
5621 **      GUI_QUICK_CREATE : Quick create raid/volume set
5622 **    	    byte 0,1        : length
5623 **    	    byte 2          : command code 0x20
5624 **    	    byte 3/4/5/6    : raw capacity
5625 **    	    byte 7 			: raid level
5626 **    	    byte 8 			: stripe size
5627 **    	    byte 9 			: spare
5628 **    	    byte 10/11/12/13: device mask (the devices to create raid/volume)
5629 **    		                  This function is removed, application like to implement quick create function
5630 **    		                  need to use GUI_CREATE_RAIDSET and GUI_CREATE_VOLUMESET function.
5631 **      GUI_GET_INFO_R : Get Raid Set Information
5632 **    		byte 0,1        : length
5633 **    		byte 2          : command code 0x20
5634 **    		byte 3          : raidset#
5635 **
5636 **    	typedef struct sGUI_RAIDSET
5637 **    	{
5638 **    		BYTE grsRaidSetName[16];
5639 **    		DWORD grsCapacity;
5640 **    		DWORD grsCapacityX;
5641 **    		DWORD grsFailMask;
5642 **    		BYTE grsDevArray[32];
5643 **    		BYTE grsMemberDevices;
5644 **    		BYTE grsNewMemberDevices;
5645 **    		BYTE grsRaidState;
5646 **    		BYTE grsVolumes;
5647 **    		BYTE grsVolumeList[16];
5648 **    		BYTE grsRes1;
5649 **    		BYTE grsRes2;
5650 **    		BYTE grsRes3;
5651 **    		BYTE grsFreeSegments;
5652 **    		DWORD grsRawStripes[8];
5653 **    		DWORD grsRes4;
5654 **    		DWORD grsRes5; //     Total to 128 bytes
5655 **    		DWORD grsRes6; //     Total to 128 bytes
5656 **    	} sGUI_RAIDSET, *pGUI_RAIDSET;
5657 **      GUI_GET_INFO_V : Get Volume Set Information
5658 **    		byte 0,1        : length
5659 **    		byte 2          : command code 0x21
5660 **    		byte 3          : volumeset#
5661 **
5662 **    	typedef struct sGUI_VOLUMESET
5663 **    	{
5664 **    		BYTE gvsVolumeName[16]; //     16
5665 **    		DWORD gvsCapacity;
5666 **    		DWORD gvsCapacityX;
5667 **    		DWORD gvsFailMask;
5668 **    		DWORD gvsStripeSize;
5669 **    		DWORD gvsNewFailMask;
5670 **    		DWORD gvsNewStripeSize;
5671 **    		DWORD gvsVolumeStatus;
5672 **    		DWORD gvsProgress; //     32
5673 **    		sSCSI_ATTR gvsScsi;
5674 **    		BYTE gvsMemberDisks;
5675 **    		BYTE gvsRaidLevel; //     8
5676 **
5677 **    		BYTE gvsNewMemberDisks;
5678 **    		BYTE gvsNewRaidLevel;
5679 **    		BYTE gvsRaidSetNumber;
5680 **    		BYTE gvsRes0; //     4
5681 **    		BYTE gvsRes1[4]; //     64 bytes
5682 **    	} sGUI_VOLUMESET, *pGUI_VOLUMESET;
5683 **
5684 **      GUI_GET_INFO_P : Get Physical Drive Information
5685 **    		byte 0,1        : length
5686 **    		byte 2          : command code 0x22
5687 **    		byte 3          : drive # (from 0 to max-channels - 1)
5688 **
5689 **    	typedef struct sGUI_PHY_DRV
5690 **    	{
5691 **    		BYTE gpdModelName[40];
5692 **    		BYTE gpdSerialNumber[20];
5693 **    		BYTE gpdFirmRev[8];
5694 **    		DWORD gpdCapacity;
5695 **    		DWORD gpdCapacityX; //     Reserved for expansion
5696 **    		BYTE gpdDeviceState;
5697 **    		BYTE gpdPioMode;
5698 **    		BYTE gpdCurrentUdmaMode;
5699 **    		BYTE gpdUdmaMode;
5700 **    		BYTE gpdDriveSelect;
5701 **    		BYTE gpdRaidNumber; //     0xff if not belongs to a raid set
5702 **    		sSCSI_ATTR gpdScsi;
5703 **    		BYTE gpdReserved[40]; //     Total to 128 bytes
5704 **    	} sGUI_PHY_DRV, *pGUI_PHY_DRV;
5705 **
5706 **    	GUI_GET_INFO_S : Get System Information
5707 **      	byte 0,1        : length
5708 **      	byte 2          : command code 0x23
5709 **
5710 **    	typedef struct sCOM_ATTR
5711 **    	{
5712 **    		BYTE comBaudRate;
5713 **    		BYTE comDataBits;
5714 **    		BYTE comStopBits;
5715 **    		BYTE comParity;
5716 **    		BYTE comFlowControl;
5717 **    	} sCOM_ATTR, *pCOM_ATTR;
5718 **
5719 **    	typedef struct sSYSTEM_INFO
5720 **    	{
5721 **    		BYTE gsiVendorName[40];
5722 **    		BYTE gsiSerialNumber[16];
5723 **    		BYTE gsiFirmVersion[16];
5724 **    		BYTE gsiBootVersion[16];
5725 **    		BYTE gsiMbVersion[16];
5726 **    		BYTE gsiModelName[8];
5727 **    		BYTE gsiLocalIp[4];
5728 **    		BYTE gsiCurrentIp[4];
5729 **    		DWORD gsiTimeTick;
5730 **    		DWORD gsiCpuSpeed;
5731 **    		DWORD gsiICache;
5732 **    		DWORD gsiDCache;
5733 **    		DWORD gsiScache;
5734 **    		DWORD gsiMemorySize;
5735 **    		DWORD gsiMemorySpeed;
5736 **    		DWORD gsiEvents;
5737 **    		BYTE gsiMacAddress[6];
5738 **    		BYTE gsiDhcp;
5739 **    		BYTE gsiBeeper;
5740 **    		BYTE gsiChannelUsage;
5741 **    		BYTE gsiMaxAtaMode;
5742 **    		BYTE gsiSdramEcc; //     1:if ECC enabled
5743 **    		BYTE gsiRebuildPriority;
5744 **    		sCOM_ATTR gsiComA; //     5 bytes
5745 **    		sCOM_ATTR gsiComB; //     5 bytes
5746 **    		BYTE gsiIdeChannels;
5747 **    		BYTE gsiScsiHostChannels;
5748 **    		BYTE gsiIdeHostChannels;
5749 **    		BYTE gsiMaxVolumeSet;
5750 **    		BYTE gsiMaxRaidSet;
5751 **    		BYTE gsiEtherPort; //     1:if ether net port supported
5752 **    		BYTE gsiRaid6Engine; //     1:Raid6 engine supported
5753 **    		BYTE gsiRes[75];
5754 **    	} sSYSTEM_INFO, *pSYSTEM_INFO;
5755 **
5756 **    	GUI_CLEAR_EVENT : Clear System Event
5757 **    		byte 0,1        : length
5758 **    		byte 2          : command code 0x24
5759 **
5760 **      GUI_MUTE_BEEPER : Mute current beeper
5761 **    		byte 0,1        : length
5762 **    		byte 2          : command code 0x30
5763 **
5764 **      GUI_BEEPER_SETTING : Disable beeper
5765 **    		byte 0,1        : length
5766 **    		byte 2          : command code 0x31
5767 **    		byte 3          : 0->disable, 1->enable
5768 **
5769 **      GUI_SET_PASSWORD : Change password
5770 **    		byte 0,1        : length
5771 **    		byte 2 			: command code 0x32
5772 **    		byte 3 			: pass word length ( must <= 15 )
5773 **    		byte 4 			: password (must be alpha-numerical)
5774 **
5775 **    	GUI_HOST_INTERFACE_MODE : Set host interface mode
5776 **    		byte 0,1        : length
5777 **    		byte 2 			: command code 0x33
5778 **    		byte 3 			: 0->Independent, 1->cluster
5779 **
5780 **      GUI_REBUILD_PRIORITY : Set rebuild priority
5781 **    		byte 0,1        : length
5782 **    		byte 2 			: command code 0x34
5783 **    		byte 3 			: 0/1/2/3 (low->high)
5784 **
5785 **      GUI_MAX_ATA_MODE : Set maximum ATA mode to be used
5786 **    		byte 0,1        : length
5787 **    		byte 2 			: command code 0x35
5788 **    		byte 3 			: 0/1/2/3 (133/100/66/33)
5789 **
5790 **      GUI_RESET_CONTROLLER : Reset Controller
5791 **    		byte 0,1        : length
5792 **    		byte 2          : command code 0x36
5793 **                            *Response with VT100 screen (discard it)
5794 **
5795 **      GUI_COM_PORT_SETTING : COM port setting
5796 **    		byte 0,1        : length
5797 **    		byte 2 			: command code 0x37
5798 **    		byte 3 			: 0->COMA (term port), 1->COMB (debug port)
5799 **    		byte 4 			: 0/1/2/3/4/5/6/7 (1200/2400/4800/9600/19200/38400/57600/115200)
5800 **    		byte 5 			: data bit (0:7 bit, 1:8 bit : must be 8 bit)
5801 **    		byte 6 			: stop bit (0:1, 1:2 stop bits)
5802 **    		byte 7 			: parity (0:none, 1:off, 2:even)
5803 **    		byte 8 			: flow control (0:none, 1:xon/xoff, 2:hardware => must use none)
5804 **
5805 **      GUI_NO_OPERATION : No operation
5806 **    		byte 0,1        : length
5807 **    		byte 2          : command code 0x38
5808 **
5809 **      GUI_DHCP_IP : Set DHCP option and local IP address
5810 **    		byte 0,1        : length
5811 **    		byte 2          : command code 0x39
5812 **    		byte 3          : 0:dhcp disabled, 1:dhcp enabled
5813 **    		byte 4/5/6/7    : IP address
5814 **
5815 **      GUI_CREATE_PASS_THROUGH : Create pass through disk
5816 **    		byte 0,1        : length
5817 **    		byte 2 			: command code 0x40
5818 **    		byte 3 			: device #
5819 **    		byte 4 			: scsi channel (0/1)
5820 **    		byte 5 			: scsi id (0-->15)
5821 **    		byte 6 			: scsi lun (0-->7)
5822 **    		byte 7 			: tagged queue (1 : enabled)
5823 **    		byte 8 			: cache mode (1 : enabled)
5824 **    		byte 9 			: max speed (0/1/2/3/4, async/20/40/80/160 for scsi)
5825 **    								    (0/1/2/3/4, 33/66/100/133/150 for ide  )
5826 **
5827 **      GUI_MODIFY_PASS_THROUGH : Modify pass through disk
5828 **    		byte 0,1        : length
5829 **    		byte 2 			: command code 0x41
5830 **    		byte 3 			: device #
5831 **    		byte 4 			: scsi channel (0/1)
5832 **    		byte 5 			: scsi id (0-->15)
5833 **    		byte 6 			: scsi lun (0-->7)
5834 **    		byte 7 			: tagged queue (1 : enabled)
5835 **    		byte 8 			: cache mode (1 : enabled)
5836 **    		byte 9 			: max speed (0/1/2/3/4, async/20/40/80/160 for scsi)
5837 **    							        (0/1/2/3/4, 33/66/100/133/150 for ide  )
5838 **
5839 **      GUI_DELETE_PASS_THROUGH : Delete pass through disk
5840 **    		byte 0,1        : length
5841 **    		byte 2          : command code 0x42
5842 **    		byte 3          : device# to be deleted
5843 **
5844 **      GUI_IDENTIFY_DEVICE : Identify Device
5845 **    		byte 0,1        : length
5846 **    		byte 2          : command code 0x43
5847 **    		byte 3          : Flash Method(0:flash selected, 1:flash not selected)
5848 **    		byte 4/5/6/7    : IDE device mask to be flashed
5849 **                           note .... no response data available
5850 **
5851 **    	GUI_CREATE_RAIDSET : Create Raid Set
5852 **    		byte 0,1        : length
5853 **    		byte 2          : command code 0x50
5854 **    		byte 3/4/5/6    : device mask
5855 **    		byte 7-22       : raidset name (if byte 7 == 0:use default)
5856 **
5857 **      GUI_DELETE_RAIDSET : Delete Raid Set
5858 **    		byte 0,1        : length
5859 **    		byte 2          : command code 0x51
5860 **    		byte 3          : raidset#
5861 **
5862 **    	GUI_EXPAND_RAIDSET : Expand Raid Set
5863 **    		byte 0,1        : length
5864 **    		byte 2          : command code 0x52
5865 **    		byte 3          : raidset#
5866 **    		byte 4/5/6/7    : device mask for expansion
5867 **    		byte 8/9/10     : (8:0 no change, 1 change, 0xff:terminate, 9:new raid level,10:new stripe size 0/1/2/3/4/5->4/8/16/32/64/128K )
5868 **    		byte 11/12/13   : repeat for each volume in the raidset ....
5869 **
5870 **      GUI_ACTIVATE_RAIDSET : Activate incomplete raid set
5871 **    		byte 0,1        : length
5872 **    		byte 2          : command code 0x53
5873 **    		byte 3          : raidset#
5874 **
5875 **      GUI_CREATE_HOT_SPARE : Create hot spare disk
5876 **    		byte 0,1        : length
5877 **    		byte 2          : command code 0x54
5878 **    		byte 3/4/5/6    : device mask for hot spare creation
5879 **
5880 **    	GUI_DELETE_HOT_SPARE : Delete hot spare disk
5881 **    		byte 0,1        : length
5882 **    		byte 2          : command code 0x55
5883 **    		byte 3/4/5/6    : device mask for hot spare deletion
5884 **
5885 **    	GUI_CREATE_VOLUME : Create volume set
5886 **    		byte 0,1        : length
5887 **    		byte 2          : command code 0x60
5888 **    		byte 3          : raidset#
5889 **    		byte 4-19       : volume set name (if byte4 == 0, use default)
5890 **    		byte 20-27      : volume capacity (blocks)
5891 **    		byte 28 		: raid level
5892 **    		byte 29 		: stripe size (0/1/2/3/4/5->4/8/16/32/64/128K)
5893 **    		byte 30 		: channel
5894 **    		byte 31 		: ID
5895 **    		byte 32 		: LUN
5896 **    		byte 33 		: 1 enable tag
5897 **    		byte 34 		: 1 enable cache
5898 **    		byte 35 		: speed (0/1/2/3/4->async/20/40/80/160 for scsi)
5899 **    								(0/1/2/3/4->33/66/100/133/150 for IDE  )
5900 **    		byte 36 		: 1 to select quick init
5901 **
5902 **    	GUI_MODIFY_VOLUME : Modify volume Set
5903 **    		byte 0,1        : length
5904 **    		byte 2          : command code 0x61
5905 **    		byte 3          : volumeset#
5906 **    		byte 4-19       : new volume set name (if byte4 == 0, not change)
5907 **    		byte 20-27      : new volume capacity (reserved)
5908 **    		byte 28 		: new raid level
5909 **    		byte 29 		: new stripe size (0/1/2/3/4/5->4/8/16/32/64/128K)
5910 **    		byte 30 		: new channel
5911 **    		byte 31 		: new ID
5912 **    		byte 32 		: new LUN
5913 **    		byte 33 		: 1 enable tag
5914 **    		byte 34 		: 1 enable cache
5915 **    		byte 35 		: speed (0/1/2/3/4->async/20/40/80/160 for scsi)
5916 **    								(0/1/2/3/4->33/66/100/133/150 for IDE  )
5917 **
5918 **    	GUI_DELETE_VOLUME : Delete volume set
5919 **    		byte 0,1        : length
5920 **    		byte 2          : command code 0x62
5921 **    		byte 3          : volumeset#
5922 **
5923 **    	GUI_START_CHECK_VOLUME : Start volume consistency check
5924 **    		byte 0,1        : length
5925 **    		byte 2          : command code 0x63
5926 **    		byte 3          : volumeset#
5927 **
5928 **    	GUI_STOP_CHECK_VOLUME : Stop volume consistency check
5929 **    		byte 0,1        : length
5930 **    		byte 2          : command code 0x64
5931 ** ---------------------------------------------------------------------
5932 **    4. Returned data
5933 ** ---------------------------------------------------------------------
5934 **    	(A) Header          : 3 bytes sequence (0x5E, 0x01, 0x61)
5935 **    	(B) Length          : 2 bytes (low byte 1st, excludes length and checksum byte)
5936 **    	(C) status or data  :
5937 **           <1> If length == 1 ==> 1 byte status code
5938 **    								#define GUI_OK                    0x41
5939 **    								#define GUI_RAIDSET_NOT_NORMAL    0x42
5940 **    								#define GUI_VOLUMESET_NOT_NORMAL  0x43
5941 **    								#define GUI_NO_RAIDSET            0x44
5942 **    								#define GUI_NO_VOLUMESET          0x45
5943 **    								#define GUI_NO_PHYSICAL_DRIVE     0x46
5944 **    								#define GUI_PARAMETER_ERROR       0x47
5945 **    								#define GUI_UNSUPPORTED_COMMAND   0x48
5946 **    								#define GUI_DISK_CONFIG_CHANGED   0x49
5947 **    								#define GUI_INVALID_PASSWORD      0x4a
5948 **    								#define GUI_NO_DISK_SPACE         0x4b
5949 **    								#define GUI_CHECKSUM_ERROR        0x4c
5950 **    								#define GUI_PASSWORD_REQUIRED     0x4d
5951 **           <2> If length > 1 ==> data block returned from controller and the contents depends on the command code
5952 **        (E) Checksum : checksum of length and status or data byte
5953 **************************************************************************
5954 */
5955